JP6670897B2 - Money handling equipment - Google Patents

Description

  The present invention relates to a money handling apparatus that handles money.

  The money handling apparatus performs, for example, attachment / detachment of a storage cassette when collecting or setting cash, elimination of jam when a jam of money (banknotes / coins) occurs, cleaning of a sensor at the time of periodic inspection, and the like. At this time, there is a structure in which a money handling unit having a part where the work is performed is pulled out from the apparatus main body. Some money handling apparatuses of this type include an interlock mechanism that turns off the power of the money handling unit when the money handling unit is pulled out from the apparatus body (for example, see Patent Document 1).

JP 2007-94927 A

  In the device as described above, when the money handling unit is pulled out of the device body for access from the outside, or when the cover of the device body is opened and the money handling unit is exposed to the outside, the driving system of the money handling unit is opened. The power supply (AC100V, DC24V, etc.) is turned off. However, it is general that the power supply of the sensor system (DC5V, DC12V, etc.) of the money processing unit of a lower voltage than this is kept energized. This is because it is necessary to check the ON state and the OFF state of the sensors in the transport path when performing maintenance work such as periodic inspection, for example, when removing jams of bills and the like. For this reason, the power supply of the sensor system is also in an energized state even when it is not necessary to make the power supply of the sensor system in an energized state, for example, when performing an internal cleaning operation. Therefore, there is a high possibility that the power supply of the money handling unit will be short-circuited accordingly.

  On the other hand, in order to eliminate the possibility of short-circuiting the power supply of the sensor system, it is necessary to turn off the power supplies of both the drive system and the sensor system. In this case, since the main power of the entire apparatus is turned off, it is necessary to turn off the power of the main CPU that controls the entire apparatus. In recent years, the main CPU often incorporates an OS, and it takes a long time to shut down the power. Therefore, the power cannot be turned off immediately and the workability of maintenance is significantly reduced. If the main CPU is performing another operation such as updating the ROM or collecting log data, the power cannot be turned off until this operation is completely completed, resulting in a considerable loss of time. . Therefore, it is difficult to simply turn off the main power supply of the entire apparatus.

  Therefore, the present invention can easily reduce the possibility of short-circuiting the power supply of the money handling unit, and perform the maintenance work on the device main body and the maintenance work on the money handling unit in parallel. It is an object of the present invention to provide a money handling apparatus that can perform maintenance work efficiently.

  Means for Solving the Problems To achieve the above object, an invention according to claim 1 includes an apparatus main body having a main power supply on / off means for switching on and off a main power supply, and an opening and closing wherein a cover of the apparatus main body is opened to be exposed to the outside A money processing unit having a unit, and a manual switch that switches on and off the power of the money processing unit while maintaining the main power of the apparatus main body is inoperable when the cover is closed. The cover is provided at a position operable when the cover is opened.

Further, when the cover is opened, the power supply of the first voltage from the apparatus main body to the money handling unit is turned off, and when the cover is closed, the power supply of the first voltage from the device body to the money handling unit is provided. An automatic switching unit for turning on the supply is provided, and the manual switch switches on and off a power supply of a second voltage lower than the first voltage from the apparatus main body to the money handling unit. And
Further, the apparatus main body has software maintenance means for performing software maintenance, and the software maintenance means operates the manual switch of the money handling unit while maintaining the main power of the apparatus main body on. Software maintenance can be performed while the power is off.

  The invention according to claim 2 is the invention according to claim 1, wherein a plurality of the money processing units are provided, and the manual switch is provided for each of the plurality of money processing units.

  According to the invention according to claim 1, since the manual switch switches on and off the power supply of the money handling unit while maintaining the main power supply of the apparatus main body, the money is output without turning off the main power supply of the apparatus main body. The power of the processing unit can be turned off. Therefore, it is possible to easily reduce the possibility of the power supply of the money handling unit being short-circuited which may occur when the cover of the apparatus main body is opened. In addition, the manual switch is inoperable when a cover that is opened when exposing the money handling unit to the outside is closed, and is provided at a position that can be operated when the cover is opened. Therefore, the operation is not performed unless the cover is opened, so that an erroneous operation in a state where the cover is closed can be prevented.

When the cover of the apparatus main body is opened and the money processing unit is exposed to the outside, the automatic switching unit turns off the first voltage power supply from the apparatus main body to the money processing unit. When the cover of the apparatus main body is opened for maintenance and the money handling unit is exposed to the outside, it is automatically turned off. In addition, the manual switch switches on and off the power supply of the second voltage, which has a relatively small effect even if the user forgets to turn off the power below the first voltage. As described above, the power supply of the first voltage, which has a relatively large effect if the user forgets to turn it off, can be automatically turned off when the cover of the apparatus main body is opened for maintenance to prevent a short circuit.
Also, the software maintenance means can perform software maintenance while the main switch of the apparatus main body is kept on and the manual switch turns off the power of the money processing unit. Even if it is off, you can perform software maintenance. Therefore, the maintenance of the money handling unit and the maintenance of the software by the software maintenance means can be performed in parallel, and the efficiency can be improved.

  According to the invention according to claim 2, since the manual switch is provided for each of the plurality of money processing units, the power of each money processing unit can be individually turned on and off by each manual switch.

It is a perspective view which shows the principal part of the money handling apparatus of reference technology. It is a block diagram showing an important section of a money processor of a reference technology. It is a perspective view showing the money processor concerning a 1st embodiment of the present invention. It is a block diagram showing an important section of a money processor concerning a 1st embodiment of the present invention.

  A money handling apparatus according to the reference technology will be described below with reference to FIGS.

  As shown in FIG. 1, the money handling apparatus 10 of the reference technology has an apparatus body 12, a plurality of money handling units 13 and a money handling unit 14 supported on the apparatus body 12 so as to be slidable in a horizontal direction. I have. The money handling unit 13 is arranged to overlap the money handling unit 14. Both the money processing unit 13 and the money processing unit 14 can be pulled out to the front of the apparatus main body 12 and can be pushed rearward. The money handling unit 13 and the money handling unit 14 can both be withdrawn at the same time, but when one is withdrawn, the other withdrawal may be regulated.

  The upper part of the apparatus main body 12 is a part that performs processing related to money, and is a coin processing device part 18 that performs coin deposit and withdrawal processing. The money processing unit 13 and the money processing unit 14 are parts that perform processing related to money, and are a bill processing unit that performs banknote deposit and withdrawal processing.

  In the upper part on the front side of the upper money processing unit 13, there is provided a bill receiving / dispensing port 20 for receiving deposited bills from outside the machine and for paying out bills to be taken out from inside the machine to outside the machine. In the money handling unit 13, the front surface portion 21 including the front surface and the bill receiving / dispensing port 20 is always exposed outside the apparatus. In the closed state where the money handling unit 13 is pushed into the apparatus main body 12 the most, the portion excluding the front surface configuration portion 21 is housed inside the apparatus main body 12 and is not covered with the apparatus main body 12 so as to be exposed. Will not be accessible. In addition, when the money handling unit 13 is pulled out from the apparatus main body 12, a portion excluding the front component 21 covered by the apparatus main body 12 in the closed state is exposed to the outside of the apparatus, so that the operator can access the money processing unit 13. It becomes possible. That is, the money processing unit 13 opens and closes by the relative movement between the device main body 12 and the money processing unit 13.

  The currency handling unit 13 includes a bill transport path forming member (not shown) including a belt and rollers forming a bill transport path for guiding the movement of bills, and a transport drive motor shown in FIG. 2 for driving the bill transport path forming member. 25, a distributing member (not shown) for distributing bills at a branch point of the bill transport path, a solenoid 26 for driving the distributing member shown in FIG. 2, and a plurality of optical type sensors for detecting the presence or absence of bills in the bill transport path. A bill detection sensor 27 shown in FIG. 2 is provided.

  In the lower money processing unit 14, the front component 31 including the front shown in FIG. 1 is always exposed outside the apparatus. In the closed state where the money processing unit 14 is pushed into the apparatus main body 12 most, the main unit 32 excluding the front surface configuration part 31 is housed inside the apparatus main body 12 and the apparatus main body 12 and the upper money processing unit in the closed state. 13 and is not exposed and cannot be accessed by the operator. When the money handling unit 14 is pulled out of the apparatus main body 12, the main body 32, which is covered by the apparatus main body 12 in the closed state, is exposed to the outside of the apparatus, so that the operator can access the money processing unit 14. That is, the money processing unit 14 is opened and closed by the relative movement between the device main body 12 and the money processing unit 14.

  Slide rails 41 are connected to both outer sides of the money handling unit 14, and these slide rails 41 are also connected to the apparatus main body 12. The slide rail 41 is composed of rail members 42 and 43 connected to each other so as to be relatively slidable, and has an inner / outer double structure and is extendable and contractible. The slide rail 41 has a rail member 42 fixed to the money handling unit 14 and a rail member 43 slidably connected to the apparatus main body 12. Thus, the money handling unit 14 is slidably supported by the apparatus main body 12 via the slide rail 41. Although not shown, the upper money handling unit 13 is also slidably supported by the apparatus main body 12 via a slide rail.

  The main body part 32 of the money handling unit 14 withdrawn from the apparatus main body 12 is provided with temporary storage units 44 to 46 for temporarily storing banknotes identified as true banknotes by a deposit identification unit (not shown) for each denomination. Although not shown, storage cassettes of denominations for receiving bills from the respective temporary storage units 44 to 46 are provided below the storage cassettes. The storage cassette of each denomination is capable of dispensing by dispensing stored banknotes one by one.

  The currency handling unit 14 includes a bill transport path forming member (not shown) including a belt and rollers forming a bill transport path for guiding the movement of bills, and a transport drive motor shown in FIG. 2 for driving the bill transport path forming member. 51, a distributing member (not shown) for distributing bills at a branch point of the bill transport path, a solenoid 52 shown in FIG. 2 for driving the distributing member, and a plurality of optical types for detecting the presence or absence of bills in the bill transport path. A bill detection sensor 53 shown in FIG. 2 is provided.

  As shown in FIG. 1, a manual main switch 61 (main power supply on / off means) that is turned on by an operator's manual operation is provided on the upper side surface of the apparatus main body 12.

  As shown in FIG. 2, the money handling unit 13 is provided with a manual unit switch 63 (manual switch) that is turned on and off by a manual operation of an operator. Although not shown, the manual unit switch 63 is exposed in the currency handling unit 13 when it is in a closed state and is not covered by the apparatus main body 12 and when it is in an open state and is not exposed by the apparatus main body 12. It is provided in the part which does. That is, the money handling unit 13 is provided with the manual unit switch 63 at a position where operation is impossible when pushed into the apparatus main body 12 and operable when pulled out from the apparatus main body 12.

  As shown in FIG. 1, the currency handling unit 14 has a main body 32 which is not covered and exposed by the apparatus main body 12 when it is in a closed state, and is exposed without being covered by the apparatus main body 12 when it is in an open state. Is provided with a manual unit switch 64 (manual switch) which is turned on and off by a manual operation of the operator. In other words, the money handling unit 14 is provided with the manual unit switch 64 at a position where the operation is impossible when pushed into the apparatus main body 12 and is operable when pulled out from the apparatus main body 12.

  Therefore, as shown in FIG. 2, the plurality of money processing units 13 and 14 are provided with a manual unit switch for each money processing unit. In other words, each of the plurality of money processing units 13 and 14 is individually operated manually. A unit switch is provided.

  The device main body 12 has a power cable 76 provided with a power plug 75 at the end. The power plug 75 is inserted into a power outlet 77 of a building in which the money handling apparatus 10 is installed, so that an external power source such as a commercial power source is provided. The power supply 78 receives, for example, a power supply of AC100V.

  The apparatus main body 12 includes the above-described manual main switch 61, a main power control unit 81 (main power on / off means), an operation unit 82 (main power on / off means) for receiving an operator's operation input, and A display unit 83 for displaying information to the user, a main control unit 84 (main power supply on / off means) equipped with an OS, a power supply control unit 85 for controlling power supply to the money processing units 13 and 14, and a data input unit. A part 86 is provided. The power cable 76 is connected to the main power control unit 81, so that the money processing apparatus 10 receives the power supply from the external power supply 78 by the main power control unit 81.

  The main power control unit 81 controls the power supply to the main control unit 84 and the power supply control unit 85, and is connected to the manual main switch 61. The power supply to the main control unit 84 and the power supply control unit 85 is changed depending on the location. That is, when the main power switch is turned on while the main power is off, the main power control unit 81 turns the manual main switch 61 on and sends the main power to the main control unit 84 and the power supply control unit 85. It is in a state of supplying (that is, a state in which the main power supply of the apparatus main body 12 is on). When a power shutdown operation is input to the operation unit 82 while the main power is on, the main power control unit 81 turns off the manual main switch 61 with the power shutdown process of the main control unit 84, and In this state, the main power is not supplied to the main controller 84 and the power supply controller 85 (that is, the main power of the apparatus main body 12 is turned off). That is, the manual main switch 61, the main power control unit 81, the operation unit 82, and the main control unit 84 switch on and off the main power.

  The money handling unit 13 includes a drive system control unit 92 for controlling power supply to a drive system component group 91 including the transport drive motor 25 and the solenoid 26 as drive system components, and a plurality of sensor system components as described above. And a sensor system control unit 94 for controlling power supply to a sensor system component group 93 including the banknote detection sensor 27.

  The drive system control unit 92 controls the power supplied from the power supply control unit 85 of the apparatus main body 12 to control the drive system components such as the transport drive motor 25 and the solenoid 26 constituting the drive system component group 91. It supplies the power of the corresponding voltage. The sensor system control unit 94 controls the power supplied from the power supply control unit 85 of the apparatus main body 12 to correspond to each of the sensor system components such as the plurality of banknote detection sensors 27 constituting the sensor system component group 93. To supply the power of the voltage.

  Here, the drive system power supply that the drive system control unit 92 supplies to each of the drive system components provided in the money handling unit 13 is a power supply of AC100V (first voltage) or DC24V (first voltage), The sensor system power supply that the sensor system control unit 94 supplies to each of the sensor system components provided in the money handling unit 13 is a DC5V (second voltage) or DC12V (second voltage) power source. The maximum value of the sensor system power supplied by the sensor system control unit 94 to each of the sensor system components provided in the money processing unit 13 is determined by the drive system control unit 92 of the drive system component provided in the money processing unit 13. The voltage is lower than the minimum value of the drive system power supply supplied to each of them. In other words, in the money handling unit 13, all the driving system components are high-voltage components whose supplied voltage is higher than any of the sensor system components, and all the sensor system components have the supplied voltage of any driving system. It is a low-voltage component that is lower than system components.

  The money processing unit 13 is provided with an interlock unit 95 (automatic switching means) at a position on the electric circuit between the power supply control unit 85 and the drive system control unit 92 of the apparatus main body 12. When the money processing unit 13 in the closed state is pulled out from the apparatus main body 12, the interlock unit 95 supplies drive system power from the power supply control unit 85 of the apparatus main body 12 to the drive system control unit 92 of the money processing unit 13. Turn off. Further, when the money processing unit 13 is pushed into the device main body 12 to be in the closed state, the interlock unit 95 controls the drive system power supply from the power supply control unit 85 of the device main body 12 to the drive system control unit 92 of the money processing unit 13. Turn on the supply.

  The above-described manual unit switch 63 is provided in the money handling unit 13 at a position between the power supply control unit 85 of the apparatus main body 12 and the sensor system control unit 94 on the electric circuit. The manual unit switch 63 is a switch having a mechanical contact for manually turning off or connecting an electric circuit connecting the power supply control unit 85 and the sensor system control unit 94. The manual unit switch 63 switches on and off the supply of a sensor system power supply lower than the drive system power supply from the power supply control unit 85 of the apparatus main body 12 to the sensor system control unit 94 of the money handling unit 13. At this time, the manual unit switch 63 switches on and off the sensor system power of the money handling unit 13 while maintaining the main power of the apparatus main body 12 on. The manual unit switch 63 is for turning on / off the sensor system power supply on the low voltage side in the money handling unit 13.

  The money handling unit 14 includes a drive system control unit 102 that controls power supply to a drive system component group 101 including the transport drive motor 51 and the solenoid 52, which are drive system components, and a plurality of sensor system components. And a sensor system control unit 104 for controlling power supply to the sensor system component group 103 including the banknote detection sensor 53.

  The drive system control unit 102 controls the power supplied from the power supply control unit 85 of the apparatus main body 12 to control the drive system components such as the transport drive motor 51 and the solenoid 52 constituting the drive system component group 101. It supplies the power of the corresponding voltage. The sensor system control unit 104 controls the power supplied from the power supply control unit 85 of the apparatus main body 12 to correspond to each of the sensor system components such as the plurality of bill detection sensors 53 constituting the sensor system component group 103. To supply the power of the voltage.

  Here, the drive system power supply that the drive system control unit 102 supplies to each of the drive system components provided in the money handling unit 14 is a power supply of AC100V (first voltage) or DC24V (first voltage), The sensor system power supply that the sensor system control unit 104 supplies to each of the sensor system components provided in the money handling unit 14 is a DC5V (second voltage) or DC12V (second voltage) power source. The maximum value of the sensor system power supply that the sensor system control unit 104 supplies to each of the sensor system components provided in the money processing unit 14 is determined by the drive system control unit 102 of the drive system component provided in the money processing unit 14. The voltage is lower than the minimum value of the drive system power supply supplied to each of them. In other words, in the money handling unit 14, all the driving system components are high-voltage components whose supplied voltage is higher than any of the sensor system components, and all the sensor system components have the supplied voltage of any driving system. It is a low-voltage component that is lower than system components.

  The money processing unit 14 is provided with an interlock unit 105 (automatic switching unit) at a position between the power supply control unit 85 and the drive system control unit 102 of the apparatus main body 12 on the electric circuit. When the money processing unit 14 in the closed state is pulled out from the apparatus main body 12, the interlock unit 105 controls the supply of the drive system power from the power supply control unit 85 of the apparatus main body 12 to the drive system control unit 102 of the money processing unit 14. Turn off. Further, when the money processing unit 14 is pushed into the apparatus main body 12 to be in a closed state, the interlock unit 105 controls the drive system power supply from the power supply control unit 85 of the apparatus main body 12 to the drive system control unit 102 of the money processing unit 14. Turn on the supply.

  The above-described manual unit switch 64 is provided in the money handling unit 14 at a position between the power supply control unit 85 of the apparatus main body 12 and the sensor system control unit 104 on the electric circuit. The manual unit switch 64 is a mechanical switch for manually turning off or connecting an electric circuit connecting the power supply control unit 85 and the sensor system control unit 104. The manual unit switch 64 switches on and off the supply of the sensor system power from the power supply control unit 85 of the apparatus main body 12 to the sensor system control unit 104 of the money handling unit 14. At that time, the manual unit switch 64 switches on and off the sensor system power supply of the money handling unit 14 while maintaining the main power supply of the apparatus main body 12 on. The manual unit switch 64 turns on and off the sensor system power supply on the low voltage side of the money handling unit 14.

  The main control unit 84 of the apparatus main body 12 has a software maintenance unit 110 for performing software maintenance. That is, when the software maintenance mode is selected by an operation input to the operation unit 82, a software maintenance process of reading new software from the memory device 111 connected to the data input unit 86 and updating the software is performed. . In addition to reading new software from the memory device 111 connected to the data input unit 86, it is also possible to download new software via the Internet and update the software.

  When the manual main switch 61 is turned on in a state where the power plug 75 is inserted into the power outlet 77 and the power can be supplied from the external power supply 78, the money processing apparatus 10 of the reference The main power control unit 81 supplies the supplied power to the main control unit 84 and the power supply control unit 85. As a result, money deposit / withdrawal processing and the like are performed under the control of the main control unit 84.

  At that time, the power supply control unit 85 supplies the drive system power to the drive system control unit 92 of the money handling unit 13 via the interlock unit 95 in the ON state. The system control unit 92 supplies power to the drive system components such as the transport drive motor 25 and the solenoid 26 of the drive system component group 91. In addition, the power supply control unit 85 supplies the sensor system power to the sensor system control unit 94 of the money handling unit 13 via the manual unit switch 63 in the ON state. Power is supplied to sensor system components such as a plurality of bill detection sensors 27 in the system component group 93.

  On the other hand, the power supply control unit 85 supplies the drive system power to the drive system control unit 102 of the money handling unit 14 via the interlock unit 105 in the ON state. Supplies power to the drive system components such as the transfer drive motor 51 and the solenoid 52 of the drive system component group 101. Further, the power supply control unit 85 supplies the sensor system power to the sensor system control unit 104 of the money handling unit 14 via the manual unit switch 64 in the ON state, and in response to this, the sensor system control unit 104 Power is supplied to sensor system components such as a plurality of bill detection sensors 53 of the system component group 103.

  When the operator pulls out the money handling unit 13 from the apparatus main body 12 for maintenance, the interlock unit 95 cuts off the supply of the drive system power from the power supply control unit 85 to the drive system control unit 92 of the money handling unit 13. As a result, the drive system power supply of the money handling unit 13 is turned off.

  At this time, if the exposed manual unit switch 63 of the money processing unit 13 is turned on, the sensor system power is supplied from the power supply control unit 85 to the sensor system control unit 94 of the money processing unit 13, and the money processing is performed. The sensor system power supply of the unit 13 is turned on. At this time, power is supplied to the sensor system components such as the plurality of bill detection sensors 27 and the like, so that inspection and the like can be performed while the sensor system components are energized.

  On the other hand, when the manual unit switch 63 is turned off, the power supply control unit 85 does not supply the sensor system power to the sensor system control unit 94 of the money processing unit 13, and the sensor system power of the money processing unit 13 is turned off. State. At this time, power is not supplied to the sensor system components such as the bill detection sensors 27 and the like, and short circuit of the electric circuit can be prevented. Therefore, in this state, it is possible to perform jam clearance, cleaning, replacement of defective parts, and the like while preventing short circuit of the electric circuit in the money handling unit 13.

  Similarly, when the operator pulls out the money handling unit 14 from the apparatus main body 12 for maintenance, the interlock unit 105 controls the drive system power supply from the power supply control unit 85 to the drive system control unit 102 of the money handling unit 14. The supply is cut off, and the drive system power supply of the money handling unit 14 is turned off.

  At this time, if the exposed manual unit switch 64 of the money processing unit 14 is turned on, the sensor system power is supplied from the power supply control unit 85 to the sensor system control unit 104 of the money processing unit 14, and the money processing is performed. The sensor system power supply of the unit 14 is turned on. At this time, power is supplied to the sensor-based components such as the plurality of bill detection sensors 53 and the like, so that inspection and the like can be performed while the sensor-based components are energized.

  On the other hand, when the manual unit switch 64 is turned off, the sensor power is not supplied from the power supply control unit 85 to the sensor control unit 104 of the money processing unit 14, and the sensor power of the money processing unit 14 is turned off. State. At this time, power is not supplied to the sensor system components such as the plurality of bill detection sensors 53, and short circuit of the electric circuit can be prevented. Therefore, in this state, it is possible to perform jam clearance, cleaning, replacement of defective parts, and the like while preventing short circuit of the electric circuit in the money handling unit 14.

  In this manner, the operation of the manual unit switches 63 and 64 can switch the sensor system power supply on and off for each of the plurality of money handling units 13 and 14.

  Here, the software maintenance unit 110 of the main control unit 84 executes software maintenance in a state where the manual unit switch 63 turns off the power of the money handling unit 13 while keeping the main power of the apparatus main body 12 on. It is possible. For this reason, the operator can perform maintenance of the money handling unit 13 by pulling it out of the apparatus main body 12 in parallel with software maintenance, which is processing related to the OS of the main control unit 84. Similarly, the software maintenance means 110 can execute software maintenance in a state where the manual unit switch 64 turns off the power of the money handling unit 14 while keeping the main power of the apparatus main body 12 on. For this reason, the operator can perform the maintenance of the money handling unit 14 by pulling it out of the apparatus main body 12 in parallel with the maintenance of the software. In addition to the maintenance of the software, the collection of log data and the like performed by the main control unit 84 can be performed in parallel with the maintenance of the money handling units 13 and 14.

  According to the money handling apparatus 10 of the reference technology described above, the manual unit switch 63 switches the power of the money handling unit 13 on and off while maintaining the main power of the apparatus body 12 on. The power of the money handling unit 13 can be turned off without turning off the power of the currency processing unit 12. In addition, since the manual unit switch 64 switches on and off the power of the money processing unit 14 while maintaining the main power of the apparatus main body 12 on, the power supply of the money processing unit 14 is turned off without turning off the power of the apparatus main body 12. Power can be turned off. Therefore, it is possible to turn off only the power of the money processing units 13 and 14 to be operated without turning off the main power supply of the entire apparatus, which occurs when the money processing units 13 and 14 are pulled out from the apparatus main body 12. It is possible to easily reduce the possibility of the power supply of the money processing units 13 and 14 being short-circuited. Therefore, the maintenance work related to the apparatus main body 12 including the main control unit 84 as the main CPU and the maintenance work related to the money handling units 13 and 14 can be performed in parallel, and the maintenance work efficiency can be improved.

  In addition, the manual unit switch 63 is provided at a position where the money processing unit 13 cannot be operated when the money processing unit 13 is pushed into the apparatus main body 12 and can be operated when the money processing unit 13 is pulled out. If the money handling unit 13 is pushed into the apparatus main body 12, it is possible to prevent an erroneous operation when the money handling unit 13 is pushed into the apparatus main body 12. Similarly, since the manual unit switch 64 is provided at a position where the money handling unit 14 cannot be operated when the money handling unit 14 is pushed into the apparatus body 12 and can be operated when the money handling unit 14 is pulled out, the money handling unit 14 is used for maintenance. If the money handling unit 14 is not pushed out of the apparatus main body 12, the operation is not performed, and an erroneous operation in a state where the money handling unit 14 is pushed into the apparatus main body 12 can be prevented.

  Further, when the money processing unit 13 is pulled out from the apparatus main body 12, the interlock unit 95 automatically switches off the supply of the driving system power from the apparatus main body 12 to the money processing unit 13. The power supply is automatically turned off when the money handling unit 13 is pulled out of the apparatus main body 12 for maintenance. On the other hand, the manual unit switch 63 switches on and off the supply of the sensor system power, which has a relatively small effect even if the user forgets to turn off the voltage lower than the voltage of the drive system power. As described above, the drive system power supply that has a relatively large effect if the user forgets to turn it off can be automatically turned off when the money handling unit 13 is pulled out of the apparatus main body 12 for maintenance, thereby preventing a short circuit. . Similarly, when the money processing unit 14 is pulled out of the apparatus main body 12 for maintenance, the interlock unit 105 automatically switches off the supply of the drive system power supply from the apparatus main body 12 to the money processing unit 14, so that the interlock unit 105 is turned off. For example, the drive system power supply, which has a relatively large effect if forgetting, can be automatically turned off when the money handling unit 14 is pulled out of the apparatus main body 12 for maintenance, thereby preventing a short circuit.

  In addition, since a manual unit switch is provided for each of the plurality of money processing units 13 and 14, it is possible to individually switch on and off the power of each of the money processing units 13 and 14 by using the manual unit switches 63 and 64. it can.

  Further, the software maintenance unit 110 executes the software maintenance in a state where at least one of the manual unit switches 63 and 64 turns off the power of at least one of the money handling units 13 and 14 while maintaining the main power supply of the apparatus main body 12 on. Can be performed, so that software maintenance can be performed even if at least one of the money processing units 13 and 14 is powered off for maintenance. Maintenance of at least one of the money handling units 13 and 14 and software maintenance by the software maintenance unit 110 can be performed in parallel, and efficiency can be improved.

  Note that, without providing the interlock unit 95, the manual unit switch 63 is provided between the power supply control unit 85, and both the drive system control unit 92 and the sensor system control unit 94. A configuration may be adopted in which both the drive system power supply and the sensor system power supply of the processing unit 13 are simultaneously switched on and off. Similarly, the manual unit switch 64 is provided between the power supply control unit 85 and both the drive system control unit 102 and the sensor system control unit 104 without providing the interlock unit 105. You may comprise so that both the drive system power supply and the sensor system power supply of the money handling unit 14 may be simultaneously switched on and off.

  The reference technology has an apparatus main body having main power on / off means for switching on and off a main power supply, and a money handling unit that can be pulled out from the apparatus main body, and maintains the main power supply of the apparatus main body on. A manual switch that switches on and off the power of the money handling unit while being operated is provided at a position where the money handling unit cannot be operated when the money handling unit is pushed into the apparatus main body and can be operated when pulled out. Features.

  Thereby, since the manual switch switches on and off the power of the money processing unit while maintaining the on of the main power of the apparatus main body, the power of the money processing unit is turned off without turning off the main power of the apparatus main body. be able to. Therefore, it is possible to easily reduce the possibility of the power supply of the money handling unit being short-circuited, which may occur when the money handling unit is pulled out from the apparatus main body. Therefore, the maintenance work related to the apparatus main body and the maintenance work related to the money handling unit can be performed in parallel, and the maintenance work efficiency can be improved. In addition, since the manual switch is provided at a position where the money handling unit cannot be operated when the money handling unit is pushed into the apparatus main body and can be operated when the money handling unit is pulled out, if the money handling unit is not pulled out of the apparatus body for maintenance, the manual switch is operated. It is possible to prevent erroneous operation in a state where the money handling unit is pushed into the apparatus main body.

  In addition, the reference technology turns off the power supply of the first voltage from the apparatus main body to the money processing unit when the money processing unit is pulled out from the apparatus main body, and the money processing unit is pushed into the apparatus main body. And automatic switching means for turning on the power supply of the first voltage from the apparatus main body to the money processing unit, wherein the manual switch is configured to switch the first voltage from the apparatus main body to the money processing unit. It is characterized in that the low second voltage power supply is switched on and off.

  Thereby, when the money processing unit is pulled out from the apparatus main body, the automatic switching means turns off the power supply of the first voltage from the apparatus main body to the money processing unit. Is automatically turned off when is pulled out of the apparatus body. In addition, the manual switch switches on and off the power supply of the second voltage, which has a relatively small effect even if the user forgets to turn off the power below the first voltage. As described above, the power supply of the first voltage, which has a relatively large effect when the power supply is forgotten to turn off, can be automatically turned off when the money handling unit is pulled out from the apparatus main body for maintenance, thereby preventing a short circuit. .

  The money handling apparatus 210 according to the first embodiment of the present invention will be described below with reference to FIGS.

  The money handling apparatus 210 according to the first embodiment performs processing related to money, and binds a plurality of small bundled banknotes into a large bundled banknote. The money handling device 210 has a device body 212 having a cover 211 that can be opened and closed by swinging, and a money handling unit 213 incorporated in the device body 212. The money processing unit 213 mainly performs processing of binding small bundled banknotes, which is processing relating to money. When the cover 211 is opened, the money processing unit 213 is exposed to the outside so that the operator can access the money processing unit. On the other hand, when the cover 211 is closed, the money processing unit 213 is covered with the cover 211 so as not to be exposed and cannot be accessed by the operator. An opening / closing section 214 is provided at the top.

  A small bundle banknote setting unit 220 in which a plurality of small bundle banknotes is set is provided in the apparatus main body 212 of the money handling apparatus 210. The opening / closing unit 214 of the money handling unit 213 is provided with a tape holding unit 221 that holds the binding tape T and a binding tape transport mechanism 222 that transports the binding tape T.

  The bundling tape transport mechanism 222 includes a tape transport path (not shown) for guiding the movement of the binding tape T, a roller (not shown) for feeding the binding tape T through the tape transport path, and a transport drive shown in FIG. A motor 231, a solenoid 232 shown in FIG. 4 for driving a cutter (not shown) for cutting the binding tape T, and a plurality of optical tape detection sensors 233 shown in FIG. 4 for detecting the presence or absence of the binding tape T in the tape transport path Are provided.

  As shown in FIG. 3, a manual main switch 241 that is turned on by a manual operation of an operator is provided on a side surface of the apparatus main body 212.

  As shown in FIG. 4, the apparatus main body 212 has a power cable 246 having a power plug 245 provided at the end, and the power plug 245 is inserted into a power outlet 247 of a building where the money handling apparatus 210 is installed. As a result, for example, a power supply of AC 100 V is received from an external power supply 248 such as a commercial power supply.

  As shown in FIG. 3, a manual unit switch 243 (manual switch) that is turned on and off by a manual operation of an operator is provided in the opening / closing section 214 of the money handling unit 213. The manual unit switch 243 is provided on a portion of the money handling unit 213 where the cover 211 is covered and not exposed when the cover 211 is closed, and is exposed without being covered by the cover 211 when the cover 211 is open. Is provided. That is, the money handling unit 213 is provided with the manual unit switch 243 at a position where operation is impossible when the cover 211 is closed and operation is possible when the cover 211 is opened.

  As shown in FIG. 4, the apparatus main body 212 includes a manual main switch 241 described above, a main power control unit 251 (main power on / off means), and an operation unit 252 (main power on / off) for receiving an operation input by an operator. Means), a display unit 253 for displaying information to the operator, a main control unit 254 (main power supply on / off means) equipped with an OS, and a power supply control unit for controlling power supply to the money handling unit 213. 255 and a data input section 256 are provided. The power cable 246 is connected to the main power control unit 251, so that the money processing apparatus 210 receives power supply from the external power supply 248 in the main power control unit 251.

  The main power control unit 251 controls power supply to the main control unit 254 and the power supply control unit 255, and is connected to the manual main switch 241 so that the manual main switch 241 is turned on or off. The power supply to the main control unit 254 and the power supply control unit 255 is changed depending on the location. That is, when the main power switch is turned on while the main power is off, the main power control unit 251 sets the manual main switch 241 to the on state, and supplies the main power to the main control unit 254 and the power supply control unit 255. The power is supplied (that is, the main power supply of the apparatus main body 212 is turned on). When a power shutdown operation is input to the operation unit 252 while the main power is on, the main power control unit 251 turns the manual main switch 241 off along with the power shutdown process of the main control unit 254. The main power supply is not supplied to the main control unit 254 and the power supply control unit 255 (that is, the main power supply of the apparatus main body 212 is turned off). That is, the manual main switch 241, the main power controller 251, the operation unit 252, and the main controller 254 switch the main power on and off.

  The money handling unit 213 includes a drive system control unit 262 that controls power supply to a drive system component group 261 including the transport drive motor 231 and the solenoid 232 that are drive system components, and a plurality of sensor system components described above. And a sensor system controller 264 for controlling power supply to a sensor system component group 263 including the tape detection sensor 233 of FIG.

  The drive system control unit 262 controls the power supplied from the power supply control unit 255 of the apparatus main body 212 to control the drive system components such as the transport drive motor 231 and the solenoid 232 that constitute the drive system component group 261. It supplies the power of the corresponding voltage. The sensor system control unit 264 controls the power supplied from the power supply control unit 255 of the apparatus main body 212 and responds to each of the sensor system components such as the plurality of tape detection sensors 233 constituting the sensor system component group 263. To supply the power of the voltage.

  Here, the drive system power supply that the drive system control unit 262 supplies to each of the drive system components provided in the money handling unit 213 is a power supply of AC100V (first voltage) or DC24V (first voltage), The sensor system power supply that the sensor system control unit 264 supplies to each of the sensor system components provided in the money handling unit 213 is a DC5V (second voltage) or DC12V (second voltage) power source. The maximum value of the sensor system power supply that the sensor system control unit 264 supplies to each of the sensor system components provided in the money processing unit 213 is determined by the drive system control unit 262 of the drive system component provided in the money processing unit 213. The voltage is lower than the minimum value of the drive system power supply supplied to each of them. In other words, in the money handling unit 213, all the driving system components are high-voltage components whose supplied voltage is higher than any of the sensor system components, and all the sensor system components have the supplied voltage of any driving system. It is a low-voltage component that is lower than system components.

  The money processing unit 213 is provided with an interlock unit 265 (automatic switching unit) at a position between the power supply control unit 255 and the drive system control unit 262 of the apparatus main body 212 on the electric circuit. When the cover 211 in the closed state is opened, the interlock unit 265 turns off the supply of the drive system power from the power supply control unit 255 of the apparatus main body 212 to the drive system control unit 262 of the money handling unit 213. Further, when the cover 211 in the open state is closed, the interlock unit 265 turns on the supply of the drive system power from the power supply control unit 255 of the apparatus main body 212 to the drive system control unit 262 of the money handling unit 213.

  In the money handling unit 213, the above-described manual unit switch 243 is provided at a position on the electric circuit between the power supply control unit 255 and the sensor system control unit 264 of the apparatus main body 212. The manual unit switch 243 is a switch having a mechanical contact for manually turning off or connecting an electric circuit connecting the power supply control unit 255 and the sensor system control unit 264. The manual unit switch 243 switches on and off the supply of a sensor system power supply lower than the drive system power supply from the power supply control unit 255 of the apparatus main body 212 to the sensor system control unit 264 of the money handling unit 213. At this time, the manual unit switch 243 switches on and off the sensor system power supply of the money handling unit 213 while keeping the main power supply of the apparatus main body 212 on. The manual unit switch 243 turns on / off the sensor system power supply on the low voltage side in the money handling unit 213.

  Note that the manual unit switch 243 is provided between the power supply control unit 255 and both the drive system control unit 262 and the sensor system control unit 264 without providing the interlock unit 265, and The configuration may be such that both the drive system power supply and the sensor system power supply of the processing unit 213 are simultaneously turned on and off.

  The main control unit 254 of the device main body 212 has a software maintenance unit 270 similar to the reference technology for reading new software from the memory device 271 connected to the data input unit 256 and performing an upgrade.

  When the manual main switch 241 is turned on in a state where the power plug 245 is inserted into the power outlet 247 and power can be supplied from the external power supply 248, the money The main power control unit 251 supplies the power supplied from 248 to the main control unit 254 and the power supply control unit 255. Thus, a process of binding a plurality of small bundled banknotes into a large bundled banknote under the control of the main control unit 254 is performed.

  At that time, the power supply control unit 255 supplies the drive system power to the drive system control unit 262 of the money handling unit 213 via the interlock unit 265 in the ON state. 262 supplies power to the drive system components such as the transport drive motor 231 and the solenoid 232 of the drive system component group 261. In addition, the power supply control unit 255 supplies the sensor system power to the sensor system control unit 264 of the money handling unit 213 via the manual unit switch 243 in the ON state, and the sensor system control unit 264 receives the power. Power is supplied to sensor-based components such as the plurality of tape detection sensors 233 of the sensor-based component group 263.

  On the other hand, the power supply control unit 255 supplies the drive system power to the drive system control unit 262 of the money handling unit 213 via the interlock unit 265 in the ON state. Supplies power to the drive system components such as the transport drive motor 231 and the solenoid 232 of the drive system component group 261. In addition, the power supply control unit 255 supplies the sensor system power to the sensor system control unit 264 of the money processing unit 213 via the manual unit switch 243 in the ON state. Power is supplied to the sensor system components such as the plurality of tape detection sensors 233 of the system component group 263.

  When the operator opens the cover 211 and exposes the opening / closing unit 214 of the money handling unit 213 for maintenance, the interlock unit 265 drives the power supply control unit 255 to the drive system control unit 262 of the money handling unit 213. The supply of the system power is cut off, and the drive system power of the money handling unit 213 is turned off.

  At this time, if the exposed manual unit switch 243 of the money processing unit 213 is turned on, the sensor system power is supplied from the power supply control unit 255 to the sensor system control unit 264 of the money processing unit 213, and the money processing is performed. The sensor system power supply of the unit 213 is turned on. At this time, power is supplied to the sensor-based components such as the plurality of tape detection sensors 233 and the like, so that inspection and the like can be performed while the sensor-based components are energized.

  On the other hand, when the manual unit switch 243 is turned off, the sensor power is not supplied from the power supply control unit 255 to the sensor control unit 264 of the money processing unit 213, and the sensor power of the money processing unit 213 is turned off. State. At this time, power is not supplied to the sensor system components such as the plurality of tape detection sensors 233, and short circuit of the electric circuit can be prevented. Therefore, in this state, it is possible to perform processing and cleaning of the internal tape jam, replacement of defective parts, and the like while preventing short circuit of the electric circuit in the money handling unit 213.

  Here, the software maintenance unit 270 of the main control unit 254 performs software maintenance in a state where the manual unit switch 243 turns off the power of the money handling unit 213 while keeping the main power of the apparatus main body 212 on. It is possible. Therefore, the operator can perform the maintenance of the money handling unit 213 by opening the cover 211 of the apparatus main body 212 in parallel with the maintenance of the software of the main control unit 254.

  According to the money handling apparatus 210 of the first embodiment described above, the manual unit switch 243 switches on and off the power of the money handling unit 213 while keeping the main power of the apparatus main body 212 on. The power of the money handling unit 213 can be turned off without turning off the power of the apparatus main body 212. Therefore, it is possible to easily reduce the possibility of a power supply short-circuit that may occur in the opening / closing unit 214 of the money handling unit 213 that is exposed when the cover 211 of the apparatus main body 212 is opened.

  The manual unit switch 243 cannot be operated when the cover 211 that is opened when exposing the opening / closing unit 214 of the money handling unit 213 to the outside is closed, and is provided at a position where the cover 211 can be operated when the cover 211 is opened. Therefore, the cover 211 is not operated unless the cover 211 is opened for maintenance of the money handling unit 213, and erroneous operation in a state where the cover 211 is closed can be prevented.

  When the cover 211 of the device main body 212 is opened and the opening / closing portion 214 of the money handling unit 213 is exposed to the outside, the interlock unit 265 turns off the supply of the driving system power from the device body 212 to the money handling unit 213. Automatically, the drive system power supply of the money handling unit 213 is automatically turned off when the cover 211 of the apparatus main body 212 is opened for maintenance of the money handling unit 213. On the other hand, the manual unit switch 243 switches on and off the supply of the sensor system power, which has a relatively small effect even if the user forgets to turn off the voltage lower than the voltage of the drive system power. As described above, for the drive system power supply that has a relatively large effect if forgetting to turn it off, the automatic operation is performed when the cover 211 of the apparatus main body 212 is opened for maintenance and the opening / closing unit 214 of the money handling unit 213 is exposed to the outside. It is possible to prevent the short circuit by turning it off.

  The software maintenance unit 270 can perform software maintenance in a state where the manual unit switch 243 turns off the power of the money handling unit 213 while maintaining the main power of the apparatus main body 212 on. For this reason, software maintenance can be performed even when the power of the money handling unit 213 is turned off. Maintenance of the money handling unit 213 and software maintenance by the software maintenance means 270 can be performed in parallel, and efficiency can be improved.

  In the above-described first embodiment, the case where the one currency processing unit 213 is switched on and off of the sensor system power supply by operating the manual unit switch 243 is described as an example, but the opening and closing of each of the plurality of currency processing units is described. The units may be individually opened and closed by covers, and similar manual unit switches may be provided on the open and closed units covered by the covers of each money handling unit.

  In addition, in the case where both a money processing unit pulled out from the apparatus main body and a money processing unit opened and closed by the cover are provided in one money processing apparatus, the reference technology regarding the money processing unit pulled out from the apparatus main body is referred to as a cover. The first embodiment may be applied to the currency processing units that are opened and closed.

  Further, when the money handling units 13, 14, 213 are equipped with a battery and the power of this battery is supplied to at least the sensor system control units 94, 104, 264, the battery on the electric circuit and the sensor system control unit 94, The manual unit switches 63, 64, and 264 may be provided between the manual unit switches 104 and 264.

10,210 Money handling machine 12,212 Machine body 13,14,213 Money handling unit 61,241 Manual main switch (main power on / off means)
63, 64, 243 Manual unit switch (manual switch)
81, 251 main power control unit (main power on / off means)
82,252 operation unit (main power supply on / off means)
84,254 main control unit (main power supply on / off means)
95, 105, 265 Interlock unit (automatic switching means)
110, 270 Software maintenance means 211 Cover 214 Opening / closing unit

Claims (2)

An apparatus main body having main power on / off means for switching on and off the main power,
A currency processing unit having an opening and closing unit in which the cover of the apparatus body is opened and exposed to the outside,
A manual switch that switches on and off the power supply of the money handling unit while maintaining the main power supply of the apparatus main body is inoperable when the cover is closed and is in an operable position when the cover is opened. Provided,
When the cover is opened, the power supply of the first voltage from the device main body to the money handling unit is turned off, and when the cover is closed, the power supply of the first voltage from the device body to the money handling unit is provided. Has automatic switching means to turn on,
The manual switch, from the device body to the money handling unit, to switch on and off the power supply of a second voltage lower than the first voltage ,
The apparatus main body has software maintenance means for performing software maintenance,
The software maintenance means can perform software maintenance in a state where the manual switch turns off the power of the money processing unit while maintaining the main power of the apparatus main body on. Processing equipment. A plurality of the money processing units are provided,
The money handling device according to claim 1, wherein the manual switch is provided for each of the plurality of money handling units.

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