JP3799020B2 - Banknote deposit and withdrawal device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a banknote depositing / dispensing apparatus which stores banknotes in denominations and pays out banknotes stored therein.
[0002]
[Prior art]
In general, merchandise sales data processing devices such as ECR (Electronic Cash Register) and POS (Point of Sales) terminals, and drawers and change machines used together with such merchandise sales data processing devices are generally one customer. Often used in the form of a table. In particular, in a convenience store that has undergone remarkable development in recent years, the usage mode of the product sales data processing apparatus, which is one customer, is generalized.
[0003]
On the other hand, a system in which a cashier handles a plurality of product sales data processing devices and drawers and change machines associated therewith (for example, Patent Documents 1 and 2), and conversely, a single product. Conventionally, a customer reception system called a so-called two-person system in which a plurality of persons are associated with a sales data processing apparatus and a drawer or change machine associated with the sales data processing apparatus has been widely used or implemented.
[0004]
A system in which one cashier handles multiple product sales data processing devices, etc., adopts a self-scan method that allows the customer to read the product data, and the cashier exclusively works with the customer (money money) Exchange) and settlement operations (sales registration operations, etc.).
[0005]
The so-called two-person system is a method in which one product sales data processing device or the like is used by two people. In this method, the roles of the two persons are divided between the operator and the cashier. As an example of role assignment, an operator is engaged in a scanning operation for reading commodity data, and a cashier is engaged in a settlement operation or a settlement operation. As another example of the division of roles, the operator is engaged in a bagging operation for purchased merchandise, and the cashier is engaged in an operation on a merchandise sales data processing apparatus or the like.
[0006]
[Patent Document 1]
JP 07-021463 A
[Patent Document 2]
Japanese Patent Application Laid-Open No. 07-210755
[0007]
[Problems to be solved by the invention]
In the section of the prior art, in addition to the general usage of the product sales data processing device of one customer and the drawer or change machine associated therewith, one cashier has a plurality of product sales data processing devices, etc. We also introduced a customer service system called the so-called two-person system in which multiple people are associated with a single product sales data processing device.
[0008]
From the standpoint of efficiently selling customers, a system in which one cashier handles multiple product sales data processing devices, etc., as well as a so-called two-person customer service system, can handle product sales data processing for each customer. A certain degree of efficiency can be achieved in comparison with general usage modes such as devices.
[0009]
However, in a system in which one cashier handles a plurality of product sales data processing devices, etc., two lanes for scanning the product data are required, and the product sales data processing device and the drawers and changes associated therewith are required. Since two machines are required, the scale of the system will inevitably increase. While it is possible to efficiently reach customers during busy periods, it is not possible to say that the space efficiency is high because one lane and one merchandise sales data processing device are not used during times other than busy periods.
[0010]
In addition, in the customer response system called so-called two-person system, the role is divided between the operator and the cashier, so that the customer is efficiently crawled. For example, merchandise sales data processing for two customers and this The associated drawer or change machine cannot be executed in parallel. For this reason, customers can be efficiently sought to some extent, but a great effect such as doubling efficiency cannot be expected.
[0011]
Furthermore, for example, in consideration of usage at convenience stores, a system in which a cashier handles a plurality of merchandise sales data processing apparatuses and associated drawers and change machines is also called a so-called two-person system. Neither the response method nor the usage mode is appropriate.
[0012]
The objective of this invention is obtaining the banknote depositing / withdrawing apparatus which can efficiently ask a customer, without using a large-scale apparatus.
[0013]
[Means for Solving the Problems]
The invention of the banknote dispensing apparatus according to the present invention has a banknote insertion slot arranged at the center of the panel facing the operator, and one banknote outlet is arranged on each of the left and right sides of the banknote insertion slot, and is inserted into the banknote insertion slot. The banknote dispensing structure is provided in which the banknotes are transported and stored in the banknote storage unit according to denomination, and the banknotes stored in the banknote storage unit according to denomination are selectively paid out to the two banknote outlets. The banknote storage structure includes a central path that communicates straight with the banknote slot, a storage transport section that transports banknotes inserted into the banknote slot along the central path, and a lower section along the central transport path. The banknote storage part arranged in a denomination and a banknote storage mechanism that introduces the banknote transported in the central path into the banknote storage part in a denomination, and the banknote dispensing structure includes the central transport A pair of banknote payout paths that are arranged in parallel on the left and right sides of the road and communicate with each of the two banknote payout outlets in a straight line, and banknotes stored in denomination in the banknote storage section are selectively left and right one by one A right-and-left transfer mechanism for transferring the bills to the banknote payout path, and a payout for transporting the banknotes transferred to the banknote payout path to the banknote payout path and delivering them to the banknote payout path. Mechanism, A structure comprising. Thereby, for example, banknotes required as a change generated in a transaction with the right customer are paid out from a coin payment outlet located on the right side, and a banknote required as a change generated in a transaction with the left customer. It is possible to adopt a usage mode in which the payout is from a coin payout exit located on the left side. Therefore, it becomes possible to ask two customers with one coin depositing and dispensing device.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described with reference to FIGS. The present embodiment is an application example to a system including a POS terminal 101 used in a convenience store or the like, a coin deposit / withdrawal apparatus 201 on which the POS terminal 101 is placed, and a banknote deposit / withdrawal apparatus 301. Therefore, the POS terminal 101, the coin depositing / dispensing device 201, and the bill depositing / dispensing device 301 will be described separately, and finally the usage pattern of the entire system will be mentioned.
[0015]
[POS terminal 101 as merchandise sales data processing]
First, the POS terminal 101 will be described with reference to FIGS.
[0016]
FIG. 1 is a perspective view showing the appearance of a POS terminal 101, a coin depositing / dispensing apparatus 201, and a bill depositing / dispensing apparatus 301.
[0017]
The POS terminal 101 according to the present embodiment is a single POS terminal 101, and has two types of usage modes: a usage mode in which one operator handles one customer and a usage mode in which two operators respond to two customers, respectively. Allow. Therefore, the POS terminal 101 functions as a single unit for data input, data display, and other data processing in merchandise sales data processing.
[0018]
As shown in FIG. 1, a printer cover 104 for accommodating a thermal printer 103 (see FIG. 5) as a printer is provided on the upper surface of the main body case 102 of the POS terminal 101 on the left side when viewed from the operator side. The printer cover 104 has a receipt issuing port 106 for issuing a receipt 105 (see FIG. 16) issued and issued from the thermal printer 103. Further, an operator display 107 that is a tiltable LCD (Liquid Crystal Display) and a mode key 108 that is switched by a key (not shown) are provided on the upper part of the main body case 102 of the POS terminal 101. The mode key 108 is an input unit for switching an operation mode (registration, inspection, settlement, etc.) of the POS terminal 101 by being switched by a key (not shown).
[0019]
FIG. 2 is a plan view of the keyboard.
[0020]
The POS terminal 101 of this embodiment has a touch panel 109, a keyboard 110, and a barcode scanner 111 as input means for inputting data.
[0021]
The touch panel 109 is stacked on the display surface of the operator display 107. The operator display 107 with the touch panel 109 performs the same function as the keyboard by synchronizing the positional relationship between the buttons and the like displayed on the operator display 107 and the coordinates of the touch panel 109.
[0022]
As shown in FIG. 2, the keyboard 110 is configured by arranging a numeric keypad 113, a clear key 114, an enter key 115, and a customer layer key 116 on the upper surface of a flat circular casing-like keyboard housing 112. The customer segment key 116 can input ten types of customer segments, and also serves as a closing key. Such a keyboard 110 wirelessly transmits information to the POS terminal 101 side.
[0023]
The barcode scanner 111 has a structure capable of optically reading a barcode attached to a product (not shown). In this embodiment, a hand-held barcode scanner 111 that can be operated with one hand is used. Yes. Such a barcode scanner 111 transmits information to the POS terminal 101 side wirelessly.
[0024]
Here, as described above, the POS terminal 101 according to the present embodiment has two types of usage modes: one usage mode in which one operator responds to one customer and a usage mode in which two operators respond to two customers, respectively. Is allowed. Therefore, in the present embodiment, the display on the operator display 107 is divided into left and right in a usage mode in which two operators respond to two customers, respectively. When the display on the operator display 107 is divided into such left and right parts, the input function of the touch panel 109 is also separated into the right side and the left side. Such left and right separation regarding the input function of the touch panel 109 is executed by software control described later. Also, two keyboards 110 and one barcode scanner 111 are provided for the right side and the left side. The keyboard 110 and barcode scanner 111 placed on the right side of the operator toward the POS terminal 101 are for the right side, and the keyboard 110 and barcode scanner 111 placed on the left side of the operator toward the POS terminal 101 are for the left side.
[0025]
Thus, the touch panel 109, the keyboard 110, and the barcode scanner 111 are assigned roles for the right side and the left side. Here, for convenience, the input area of the touch panel 109 assigned to the right, the right keyboard 110, and the right barcode scanner 111 are referred to as first input means 109a, 110a, 111a, and the touch panel 109 assigned to the left. The left keyboard 110 and the left barcode scanner 111 will be referred to as second input means 109b, 110b, 111b. For convenience, the customer layer key 116 functioning as a fastening key included in the keyboard 110a constituting the first input means is referred to as a first fastening key 116a, and the keyboard 110b constituting the second input means is included. The customer key 116 that functions as a closing key will be referred to as a second closing key 116b.
[0026]
FIG. 3 is a perspective view showing a part of the appearance of the POS terminal 101, the coin depositing / dispensing apparatus 201, and the bill depositing / dispensing apparatus 301.
[0027]
The POS terminal 101 according to the present embodiment includes a keyboard 110, a bar code scanner 111, and left and right display units 117 and 118 each including an LED for indicating whether the receipt 105 issued from the receipt issuing port 106 is for the right side or the left side. 119. That is, the keyboard 110 includes a left and right display unit 117. The left and right display unit 117 includes a first keyboard 110a for the right side, a first left and right display unit 117a for the right side, and a second keyboard 110b for the left side. Is assigned a second left and right display portion 117b for left. Further, the bar code scanner 111 includes a left and right display unit 118, and the right and left display unit 118 is assigned with a first left and right display unit 118a for the right side to the first bar code scanner 111a for the right side. The second left and right display unit 118b for left is assigned to the second barcode scanner 111b. In the vicinity of the receipt issuing port 106, a left / right display unit 119 including a first left / right display unit 119a located on the right side of the receipt issuing port 106 and a second left / right display unit 119b located on the left side is arranged. It is installed. Here, as an example, the first left and right display portions 117a, 118a, and 119a are configured by LEDs that emit green light, and the second left and right display portions 117b, 118b, and 119b are configured by LEDs that emit orange light.
[0028]
FIG. 4 is a rear view of the POS terminal 101 as viewed from the customer side.
[0029]
As shown in FIG. 4, on the back of the POS terminal 101, a customer display 120 made of an LCD (Liquid Crystal Display) is provided. Further, a scanner pad 121 for a contactless card is also provided on the back of the POS terminal 101 at the lower center of the customer display 120.
[0030]
Here, as described above, the POS terminal 101 according to the present embodiment has two types of usage modes: one usage mode in which one operator responds to one customer and a usage mode in which two operators respond to two customers, respectively. Is allowed. Therefore, in the present embodiment, in the usage mode in which two operators respectively respond to two customers, not only the operator display 107 but also the display on the customer display 120 is divided into two.
[0031]
Next, the electrical connection of each part built in the POS terminal 101 having such a configuration will be described with reference to FIG. FIG. 5 is a block diagram showing the electrical connection of each part built in the POS terminal 101.
[0032]
As shown in FIG. 5, a POS terminal 101 according to the present embodiment incorporates a microcomputer 151 (hereinafter referred to as a microcomputer), and the microcomputer 151 drives and controls each unit. The microcomputer 151 is a ROM (Read Only Memory) that stores in advance fixed data such as an activation program via a bus line 153 such as an address bus and a data bus in a central processing unit (CPU) 152 that centrally controls each unit. ) 154, a RAM (Random Access Memory) 155 that constitutes various buffers and flag areas such as a sales buffer and a print buffer, and stores various data in a rewritable manner, and a timer 156 that measures the date and time. It is configured. The RAM 155 is backed up by a battery (not shown).
[0033]
Also, a HDD (Hard Disk Drive) 157 as a storage medium is connected to the bus line 153 connected to the CPU 152, and various data files are stored in the HDD 157 in addition to a control program for operating the microcomputer 151. Yes. As various data files, a product master file, a sales file, a screen data file, and the like are stored. Although not particularly illustrated, the product master file has a file structure that stores and holds a product name, a unit price, a department code, and the like in association with each product code of the product. The sales file has a file structure for storing and storing a merchandise sales history such as sales details and sales amount. The screen data file has a file structure for storing and holding various display data to be displayed on the operator display 107 and the customer display 120 in units of “pages” which are one screen of the display screen.
[0034]
The control program stored in the HDD 157 is written in the RAM 155 together with the product master file and the like when the POS terminal 101 is started, so that the microcomputer 151 can control the drive of each unit. Next, each unit that is driven and controlled by the microcomputer 151 will be described.
[0035]
The operator display 107 is connected to the bus line 153 via the operator display controller 158. When display data from the microcomputer 151 is input to the operator display controller 158, the operator display controller 158 is driven to a predetermined value. Display matters.
[0036]
The touch panel 109 is connected to the bus line 153 via the panel controller 159, and recognizes the position of the XY coordinates on the panel touched by the operator by the operation of the panel controller 159 to acquire coordinate data. A signal corresponding to the coordinate data is output to the microcomputer 151. When a signal is input to the microcomputer 151, the microcomputer 151 executes a predetermined process based on the signal.
[0037]
The customer display 120 is connected to the bus line 153 via the customer display controller 160, and when customer display data from the microcomputer 151 is input to the customer display controller 160, the customer display controller 160 is driven by the customer display controller 160. To display the specified items.
[0038]
Here, in the usage mode in which two operators respectively respond to two customers, the display on the operator display 107 and the customer display 120 is divided into left and right, and the input function of the touch panel 109 is also for the right. As described above, it is separated for the left side. Such a two-part process is easily realized by controlling the coordinate positions of the operator display 107 and the customer display 120 for displaying information and controlling the coordinate position of the touch panel 109 for inputting data. The However, in particular, regarding the operator display 107 and the customer display 120, information only needs to be displayed as a result of being divided into two, so a technology that can realize such information display, for example, a pop-up display technology, etc. It is possible to perform two-segment display using various techniques.
[0039]
The mode key 108 is connected to the bus line 153 via the mode key controller 161, and inputs a signal corresponding to the switching position to the microcomputer 151 by the operation of the mode key controller 161. In response to the output signal from the mode key 108, the microcomputer 151 sets the operation mode of the POS terminal 101 to each operation mode such as a registration mode, a setting mode, a payment mode, and an inspection mode.
[0040]
A scanner pad 121 for a non-contact card provided on the back side of the POS terminal 101 is connected to a bus line 153 via a scanner pad controller 162, and a contacted card is connected to the microcomputer 151 by the operation of the scanner pad controller 162. The information stored in is output.
[0041]
The thermal printer 103 built in the POS terminal 101 is connected to the bus line 153 via the printer controller 163 and is driven and controlled by the microcomputer 151. Further, the thermal printer 103 includes a cutter unit (not shown), and the cutter unit is also driven and controlled by the microcomputer 151. As a result, the thermal printer 103 performs the function of a receipt printer that prints necessary information as a receipt on a receipt sheet, which is a long sheet (not shown), and cuts and issues it as a receipt from the receipt issuing port 106.
[0042]
A left / right display unit 119 (LED) including a first left / right display unit 119a and a second left / right display unit 119b arranged in the vicinity of the receipt issuing port 106 in the thermal printer 103 is connected to a bus via an LED controller 164. It is connected to the line 153 and driven and controlled by the microcomputer 151.
[0043]
Next, as described above, the keyboard 110 and the barcode scanner 111 transmit data to the microcomputer 151 of the POS terminal 101 via wireless. Therefore, in the present embodiment, the wireless communication interface 165 is connected to the microcomputer 151 via the bus line 153, and the wireless communication circuit 166 is connected to the wireless communication interface 165. The wireless communication circuit 166 includes a first keyboard 110a and a first barcode scanner 111a that constitute first input means, and a second keyboard 110b and a second barcode scanner 111b that constitute second input means. Wireless communication with the network. Therefore, each of the first keyboard 110a, the first barcode scanner 111a, the second keyboard 110b, and the second barcode scanner 111b also includes a wireless communication circuit (not shown), and each has a specific frequency. Wireless communication is possible with the wireless communication circuit 166 on the POS terminal 101 side using the band. Since the wireless communication between the keyboard 110 and the barcode scanner 111 and the POS terminal 101 side is an existing technology, the details thereof are omitted.
[0044]
A communication interface 167 is also connected to the bus line 153 and is controlled by the microcomputer 151. The communication interface 167 is connected to an external device such as a host computer, and can transmit and receive data between the external device and the microcomputer 151 via the LAN line. A deposit / withdrawal apparatus 301 is connected to enable data transmission / reception with these devices.
[0045]
Further, in addition to the ROM 154 and the RAM 155, a VRAM (Video Random Access Memory) 168 is connected to the microcomputer 151 via the bus line 153 in the POS terminal 101. For example, the VRAM 168 is based on display data in units of “pages” stored in the screen data file of the HDD 157, and includes product names, unit prices, image data, etc. included in the display data extracted from the product master file or product image file. Are expanded at a high speed and output to the operator display controller 158 and the customer display controller 160. The display data output to the operator display controller 158 and the customer display controller 160 is displayed on the operator display 107 and the customer display 120.
[0046]
Next, functions that the control program stored in the HDD 157 of the POS terminal 101 causes the microcomputer 151 to execute will be described based on the flowcharts shown in FIGS. In this case, a schematic diagram of a display screen displayed in the display area of the operator display 107 shown in FIGS. 9 and 10, and a display screen displayed in the display area of the customer display 120 shown in FIGS. 1 to 4 are also used as necessary.
[0047]
In the POS terminal 101 after activation, the operation mode is selected according to the switching position of the mode key 108. That is, the microcomputer 151 sets the operation mode of the POS terminal 101 to a registration mode, a setting mode, a checkout mode, an inspection mode, etc. according to an output signal generated by the switching position of the mode key 108. In the present embodiment, the description of processing similar to that performed by the conventional POS terminal is omitted as processing in each mode except for the registration mode.
[0048]
On the other hand, in this embodiment, in the registration mode, the single mode corresponds to the usage mode in which one operator responds to one customer, and the usage mode in which two operators respond to two customers, respectively. Two modes of operation are allowed, with a corresponding dual mode.
[0049]
FIG. 6 is a flowchart showing a mode selection process between the single mode and the dual mode in the registration mode.
[0050]
When the operation mode of the POS terminal 101 is set to the registration mode by the switching operation of the mode key 108, two types of single use and dual use are selected for the initial screen display displayed on the operator display 107. A selection screen for enabling is displayed (not shown). Therefore, when the single use is selected (Y in step S101), the microcomputer 151 sets the POS terminal 101 to the single mode (step S102). When the dual mode is selected (N in step S101), the microcomputer 151 is set. Sets the POS terminal 101 to dual mode (step S103). That is, in the POS terminal 101 of the present embodiment, the single mode and the dual mode can be selected.
[0051]
FIG. 7 is a flowchart showing processing in the single mode. FIG. 10 is a schematic diagram illustrating a screen display example on the operator display 107 in the single mode, and FIG. 11 is a schematic diagram illustrating a screen display example on the customer display 120 in the single mode.
[0052]
In the single mode, first, the microcomputer 151 transmits lighting signals of the first left and right display units 117a and 118a to the keyboard 101a and the barcode scanner 111a constituting the first input means, and the first left and right display units thereof. Only the display units 117a and 118a are turned on (step S201). As a result, the LEDs constituting the first left and right display units 117a and 118a emit green light, and the operator configures the first input means of the two keyboards 101a and barcode scanners 111a. It is notified that only the keyboard 101a and the barcode scanner 111a can be used.
[0053]
Next, the microcomputer 151 sets the operator display 107 and the customer display 120 to full screen display (step S202). The full screen display means a display form in which only transaction information for one customer is displayed on the operator display 107 and the customer display 120. In such a single mode, a registration processing screen called from the image data file stored in the HDD 157 is displayed on the full screen on the operator display 107 and the customer display 120.
[0054]
FIG. 10 is an example of a full screen display on the operator display 107, and FIG. 11 is a schematic diagram showing a screen display example on the customer display 120 in the single mode.
[0055]
As shown in FIG. 10, the full-screen display on the operator display 107 includes a bibliographic information column 107a indicating bibliographic information such as date and time, a person in charge, etc. It includes a group column 107b, a merchandise information column 107c for displaying merchandise information, a transaction information column 107d for displaying the total purchase amount, consumption tax, deposit amount and change amount, and a discount input column 107e.
[0056]
The microcomputer 151 displays the purchase history of the purchased product in the product information column 107c, and displays the total purchase amount, consumption tax, deposit amount, and change amount determined by the purchase history in the transaction information column 107d. Further, when the PLU group tag A is touch-selected on the touch panel 109, the microcomputer 151 pops up the product information of the products included in the PLU group. When the product information of the pop-up displayed product is touch-selected on the touch panel 109, the product code of the product is input, and the display in the transaction information column 107d is updated. Information displayed in the product information column 107c can be scrolled by a scroll key B included in the product information column 107c.
[0057]
The discount input field 107e includes a tag C to which a beer ticket, a coupon ticket and a gift certificate are assigned, and a beer ticket of the type selected by the tag C, an amount of a coupon ticket or a gift certificate, for example, a beer ticket with a tag C. When selected, it has a money key D of 6 columns and 3 rows indicating the amount of a beer ticket such as a 500 yen beer ticket, a 1000 yen beer ticket,. The amount key D is scrolled by a scroll key E displayed in the discount input field 107e. The microcomputer 151 displays the amount of the beer ticket, coupon or gift certificate selected by the tag C on the amount key D, and when the amount key D is touch-selected on the touch panel 109, the selected amount is reduced from the purchase amount. Then, the display of the transaction information column 107d is updated.
[0058]
As shown in FIG. 11, the full screen display on the customer display 120 includes a date / time column 120a indicating the date / time, a current display column 120b displaying the product name, quantity and unit price of the most recently traded product, and purchasing. Purchase history column 120c for displaying the history of the product, transaction information column 120d for displaying the total purchase amount, consumption tax, deposit amount and change amount, commercial message column 120e for displaying a commercial message as commercial information, and other messages Includes a message field 120f for displaying.
[0059]
Next, the microcomputer 151 displays and outputs a commercial message in the commercial message column 120e of the customer display 120 (step S203). The commercial message may be stored and stored in advance in, for example, the HDD 157 even if the still image or the moving image of the commercial message acquired from the external device via the communication interface 167 is displayed and output in the commercial message column 120e of the customer display 120, for example. Either the still image or the moving image of the commercial message may be displayed and output in the commercial message column 120e of the customer display 120.
[0060]
Next, the microcomputer 151 waits for a product code input (step S204). The merchandise code is input by scanner input of a bar code attached to the merchandise by the bar code scanner 111a constituting the first input means or key input of the merchandise code by the keyboard 110a. In addition, the product code can be input by touch input with the touch panel 109 at a position corresponding to an item that allows the input of the product code displayed on the operator display 107.
[0061]
If it is determined that the product code has been input (Y in step S204), the microcomputer 151 executes processing for temporarily registering the product code input in the registration area in the sales buffer of the RAM 155 and storing the product data. (Step S205). And transaction data calculation is performed (step S206) and the screen display of the display 107 for operators and the display 120 for customers is updated (step S207). More specifically, the microcomputer 151 updates the display contents of the product information column 107c and the transaction information column 107d of the operator display 107, and the current display column 120b, the purchase history column 120c, and the transaction information column 120d of the customer display 120. Update the display content of.
[0062]
Thereafter, the microcomputer 151 waits for a product code input (step S204) until a deposit amount is input (Y in step S208). In the actual transaction, the deposit amount is input by the operator who has deposited the settlement amount from the customer pressing the enter key 115 in the keyboard 110 and inputting the deposit amount with the numeric keypad 113 in the keyboard 110. The In the single mode, the deposit amount is input by the first keyboard 110a constituting the first input means.
[0063]
If there is an input of the deposit amount using the numeric keypad 113 (Y in step S208), the microcomputer 151 registers the input amount in the RAM 155 (step S209), and determines whether or not the lock key 116a is input. (Step S210). The closing key 116a is a key for declaring the closing of a transaction related to a product for which product information has been input and making a settlement, and specifically, the customer key 116 functions as a closing key. In the single mode, the closing of the transaction is declared by the first closing key 116a included in the first keyboard 110a constituting the first input means.
[0064]
Next, when there is an input from the closing key 116a (Y in step S210), the microcomputer 151 calculates deposit / withdrawal data, and either or both of the coin deposit / withdrawal apparatus 201 and the banknote deposit / withdrawal apparatus 301 are calculated. The calculated deposit / withdrawal data is output (step S211). The deposit / withdrawal data is data about the amount to be withdrawn and the amount to be deposited, which is instructed to the coin deposit / withdrawal apparatus 201 or the banknote deposit / withdrawal apparatus 301. This deposit / withdrawal data may be data consisting of the denomination and number of coins or banknotes to be dispensed, or data of the amount to be dispensed. At this time, the microcomputer 151 causes the deposit / withdrawal data and the first closing signal to accompany the dispensing instruction signal transmitted and output to the coin depositing / dispensing device 201 or the bill depositing / dispensing device 301.
[0065]
Thereafter, the microcomputer 151 performs temporary registration of sales data using the work area of the RAM 155 (step S212), and drives and controls the thermal printer 103 to issue the receipt 105 (step S213). The receipt 105 is issued from the receipt issuing port 106.
[0066]
FIG. 8 is a flowchart showing processing in the dual mode, and FIG. 9 is a flowchart showing right processing and left processing in the dual mode. FIG. 12 is a schematic diagram illustrating a screen display example on the operator display 107 in the dual mode, and FIGS. 13 to 15 are schematic diagrams illustrating screen display examples on the customer display 120 in the dual mode.
[0067]
In the dual mode, first, the process shown in the flowchart of FIG. 8 is executed. That is, the microcomputer 151 transmits the lighting signals of the first left and right display portions 117a and 118a to the keyboard 101a and the barcode scanner 111a constituting the first input means, and constitutes the second input means. The lighting signals of the second left and right display portions 117b and 118b are transmitted to the keyboard 101a and the barcode scanner 111a, and both the first left and right display portions 117a and 118a and the second left and right display portions 117b and 118b are transmitted. Is turned on (step S301). As a result, the LEDs constituting the first left and right display units 117a and 118a emit green light, and the LEDs constituting the second left and right display units 117b and 118b emit orange light. For this reason, the keyboard 101a and the barcode scanner 111a constituting the first input means among the two keyboards 101a and the barcode scanner 111a provided to the operator are either the keyboard constituting the second input means. 101a and the barcode scanner 111a are shown.
[0068]
Next, the microcomputer 151 sets the operator display 107 and the customer display 120 to split screen display (step S302). The split screen display means a display mode in a dual mode in which two operators respectively respond to two customers on the operator display 107 and the customer display 120. In such a dual mode, the registration processing screen called from the image data file stored in the HDD 157 is displayed on the operator display 107 and the customer display 120 in a split screen.
[0069]
FIG. 12 is an example of a split screen display on the operator display 107 in the dual mode, and FIGS. 13 to 15 are schematic diagrams showing screen display examples on the customer display 120 in the dual mode. .
[0070]
As shown in FIG. 12, in the split screen display on the operator display 107, the contents of the full screen display on the operator display 107 illustrated in FIG. 10 are separated and displayed separately. That is, the display content of the operator display 107 is divided into a right display area 107R and a left display area 107L, and the right display area 107R and the left display area 107L are respectively displayed in the operator display 107 illustrated in FIG. The same content as the full screen display is displayed. However, only the date and time in the bibliographic information column 107a is common to the right side processing and the left side processing, and is thus displayed in a single display.
[0071]
Specifically, in each of the right display area 107R and the left display area 107L, a bibliographic information column 107a indicating bibliographic information such as date and time and a person in charge, and eight types of PLU groups are displayed as PLU group tags A. A PLU group column 107b to be displayed, a product information column 107c to display product information, a transaction information column 107d to display the total purchase amount, consumption tax, deposit amount and change amount, and a discount input column 107e are displayed.
[0072]
The microcomputer 151 displays the purchase history of the purchased product in the product information column 107c, and displays the total purchase amount, consumption tax, deposit amount, and change amount determined by the purchase history in the transaction information column 107d. Further, when the PLU group tag A is touch-selected on the touch panel 109, the microcomputer 151 pops up the product information of the products included in the PLU group. When the product information of the pop-up displayed product is touch-selected on the touch panel 109, the product code of the product is input, and the display in the transaction information column 107d is updated. Information displayed in the product information column 107c can be scrolled by a scroll key B included in the product information column 107c.
[0073]
The discount input field 107e includes a tag C to which a beer ticket, a coupon ticket and a gift certificate are assigned, and a beer ticket of the type selected by the tag C, an amount of a coupon ticket or a gift certificate, for example, a beer ticket with a tag C. When selected, it has a money key D of 6 columns and 3 rows indicating the amount of a beer ticket such as a 500 yen beer ticket, a 1000 yen beer ticket,. The amount key D is scrolled by a scroll key E displayed in the discount input field 107e. The microcomputer 151 displays the amount of the beer ticket, coupon or gift certificate selected by the tag C on the amount key D, and when the amount key D is touch-selected on the touch panel 109, the selected amount is reduced from the purchase amount. Then, the display of the transaction information column 107d is updated.
[0074]
As shown in FIG. 13, in the split screen display on the customer display 120, the contents of the full screen display on the customer display 120 illustrated in FIG. That is, the display content of the customer display 120 is divided into a right display area 120R and a left display area 120L, and each of the right display area 120R and the left display area 120L has the same display in the customer display 120 illustrated in FIG. The same content as the full screen display is displayed. However, the date and time in the bibliographic information column 107a, the commercial message displayed in the commercial message column 120e, and the other messages displayed in the message column 120f are common to the right side processing and the left side processing, and thus are displayed in a single display. It becomes.
[0075]
Specifically, in each of the right display area 107R and the left display area 107L, a current display column 120b that displays the product name, quantity, and unit price of the most recently traded product, and purchase that displays the history of the product to be purchased. A history column 120c and a transaction information column 120d for displaying the total purchase amount, consumption tax, deposit amount and change amount are displayed. The date / time field 120a indicating the date / time and the commercial message field 120e displaying the commercial message are arranged between the right display area 107R and the left display area 107L, and the message field 120f is arranged between the right display area 107R and the left side. It is displayed below the display area 107L and the commercial message column 120e.
[0076]
As another embodiment of the split screen display in the customer display 120, the split screen display illustrated in FIG. 14 or the split screen display illustrated in FIG. 15 may be employed. The split screen display illustrated in FIG. 14 does not include the commercial message field 120e. In the split screen display illustrated in FIG. 15, the right display area 107R and the left display area 107L are adjacent to each other and the commercial is displayed below the right display area 107R. A message column 120e is arranged.
[0077]
In the present embodiment, the display frames of the right display area 107R and the left display area 107L on the operator display 107 and the display frames of the right display area 107R and the left display area 107L on the customer display 120 are: Each is displayed in a separate color. That is, as described above, the LEDs constituting the first left and right display portions 117a and 118a emit light in green, and the LEDs constituting the second left and right display portions 117b and 118b emit light in orange. In accordance with the identification by the left and right colors, the display frame of the right display area 107R on the operator display 107 is displayed in green, and the display frame of the left display area 107L is displayed in orange. On the other hand, the right side seen from the operator is the left side seen from the customer, and the left side seen from the operator is the right side seen from the customer. Therefore, the display frame of the right display area 120R in the customer display 120 is displayed in orange, and the display frame of the left display area 120L is displayed in green. As an example of such color coding of the display colors, the screen for registration processing called from the image data file stored in the HDD 157 displayed on the divided screen on the operator display 107 and the customer display 120 is color-coded in advance. Realized by.
[0078]
In the process of setting the split screen display in step S302, the microcomputer 151 sets the operator display 107 and the customer display 120 to the split screen display as described above. In addition, as a part of the merchandise sales data processing, the microcomputer 151 views the merchandise sales information based on the merchandise data input by the first input means 109a, 110a, 111a for the right side as viewed from the operator and the operator. The product sales information based on the product data input by the second input means 109b, 110b, 111b for the left side is divided into a right side display and a left side display, and the operator display 107 and the customer display 120 are opposite to each other. To display. Here, the function of the display means is executed.
[0079]
Further, by the processing in step S301, the LEDs constituting the first left and right display portions 117a and 118a emit light in green, and the LEDs constituting the second left and right display portions 117b and 118b emit light in orange. Then, by the processing in step S301, the display frame of the right display area 107R on the operator display 107 is displayed in green, the display frame of the left display area 107L is displayed in orange, and the right display area 120R on the customer display 120 is displayed. Are displayed in orange, and the display frame in the left display area 120L is displayed in green. Thereby, both the operator and the customer are clearly shown the left and right distinctions when the right processing and the left processing are performed independently. Here, a first color (green in this embodiment) is included in the right display area 107R of the operator display 107, and a second color (this embodiment) different from the first color is included in the left display area 107L. The input means (in this embodiment, the first input means 109a in the present embodiment) is included on the right side of the first input means 109a, 110a, 111a and the second input means 109b, 110b, 111b. 110a, 111a), the first color is displayed, and the input means (in this embodiment, the second input means 109b, 110b, 111b) arranged on the left side displays the second color. The function of the means is performed.
[0080]
Next, the microcomputer 151 displays and outputs a commercial message in the commercial message column 120e of the customer display 120 (step S303). The commercial message may be stored and stored in advance in, for example, the HDD 157 even if the still image or the moving image of the commercial message acquired from the external device via the communication interface 167 is displayed and output in the commercial message column 120e of the customer display 120, for example. Either the still image or the moving image of the commercial message may be displayed and output in the commercial message column 120e of the customer display 120.
[0081]
In the dual mode, the process shown in the flowchart of FIG. 9 is executed following the process of the flowchart shown in FIG. The process shown in the flowchart of FIG. 9 is a series of processes from the input of the product code to the closing process in the merchandise sales data process. The right side process (FIG. 9A) and the left side process (FIG. 9B). Are executed separately and independently. Such separate and independent processing of the right side processing and the left side processing may be executed using the multitask function of the CPU 152 or may be executed by sharing the processing among the two CPUs 152. Since the basic flow of the right-side process and the left-side process is the same, here, the same step symbols in FIG. 9 are used for explanation, and only when the right-side process and the left-side process are different, both are explained separately. To do.
[0082]
First, the microcomputer 151 waits for a product code input (step S351). The product code input is executed by a barcode scanner input to the product by the barcode scanner 111 or a product code key input by the keyboard 110. In addition, the product code can be input by touch input on the touch panel 109 at a position corresponding to an item that allows the input of the product code displayed on the operator display 107 in the right display area 107R and the left display area 107L. Is possible.
[0083]
When it is determined that the product code has been input (Y in step S351), the microcomputer 151 executes a process of temporarily registering the product code input in the registration area in the sales buffer of the RAM 155 and storing the product data. (Step S352). At this time, the right side processing product code input by the first input means 109a, 110a, 111a and the left processing product code input by the second input means 109b, 110b, 111b are distinguished from each other, and the RAM 155 is distinguished. Are temporarily registered in the registration area of the sales buffer. Then, transaction data calculation is executed separately for right processing and left processing (step S353), and the screen display of the right display area 107R or the left display area 107L of the operator display 107 and the customer display 120 is updated. (Step S354). More specifically, the microcomputer 151 updates the display contents of the product information column 107c and the transaction information column 107d of the operator display 107, and the current display column 120b, the purchase history column 120c, and the transaction information column 120d of the customer display 120. Update the display content of.
[0084]
Thereafter, the microcomputer 151 waits for a product code input (step S351) until there is an input of the deposit amount from the first keyboard 110a or the second keyboard 110b (Y in step S355). In the actual transaction, the deposit amount is input by the operator who has deposited the settlement amount from the customer pressing the enter key 115 in the keyboard 110 and inputting the deposit amount with the numeric keypad 113 in the keyboard 110. The
[0085]
If there is an input of the deposit amount using the numeric keypad 113 (Y in step S355), the microcomputer 151 registers the input amount in the RAM 155 (step S356). At this time, the input amount is registered in the RAM 155 by distinguishing the amount input by the first keyboard 110a from the amount input by the second keyboard 110b. Thereafter, the microcomputer 151 determines whether or not the first tightening key 116a or the second tightening key 116b has been input (step S357). The first closing key 116a and the second closing key 116b are keys for declaring the closing of the transaction relating to the product for which the product information has been input and performing settlement. Specifically, the customer key 116 is the closing key. Function as.
[0086]
Next, when there is an input from the first closing key 116a or the second closing key 116b (Y in step S357), the microcomputer 151 calculates deposit / withdrawal data, and the coin deposit / withdrawal apparatus 201 and the banknote deposit / withdrawal. The calculated deposit / withdrawal data is output to one or both of the devices 301 (step S358). The deposit / withdrawal data is data on the amount to be withdrawn and the amount to be deposited, which is instructed to the coin deposit / withdrawal apparatus 201 or the banknote deposit / withdrawal apparatus 301. This deposit / withdrawal data may be data consisting of the denomination and number of coins or banknotes to be dispensed, or data of the amount to be dispensed. The microcomputer 151 causes the deposit / withdrawal data to accompany the dispensing instruction signal transmitted to the coin depositing / dispensing apparatus 201 or the banknote depositing / dispensing apparatus 301. At this time, if there is an input from the first closing key 116a, the product for the right processing which is input by the first input means 109a, 110a, 111a and is temporarily registered in the registration area in the sales buffer of the RAM 155. The deposit / withdrawal data is calculated based on the code, and when the second closing key 116b is input, it is input by the second input means 109b, 110b, 111b and temporarily stored in the registration area in the sales buffer of the RAM 155. Deposit / withdrawal data is calculated based on the registered product code for the left side processing. The microcomputer 151 outputs the deposit / withdrawal data calculated based on the product code for right processing corresponding to the input of the first closing key 116a together with the payout instruction signal and the first closing signal. The deposit / withdrawal data calculated based on the product code for the left side processing corresponding to the input of the second closing key 116b is output together with the payout instruction signal and the second closing signal.
[0087]
After that, the microcomputer 151 uses the work area of the RAM 155 to distinguish between the right side processing and the left side processing, and executes temporary registration of sales data (step S359), and the first left and right arranged near the receipt issuing port 106. The display unit 119a and the second left and right display unit 119b are selectively turned on (step S360), and the thermal printer 103 is driven and issued to print the receipt 105 (step S361).
[0088]
At this time, under the control of the microcomputer 151, the green LED which is the first left and right display unit 119a disposed in the vicinity of the receipt issuing port 106 is turned on in the case of the right side processing, and the receipt issuing port in the case of the left side processing. The orange LED which is the second left and right display unit 119b arranged in the vicinity of 106 is turned on. As a result, the operator issues a receipt in the right-hand side processing when the first left and right display unit 119a, which is a green LED, is lit even though there is only one receipt issuing port 106, and the orange LED When the second left and right display unit 119b is turned on, it can be known that the receipt is issued in the left side processing. Here, the receipt 105 to be issued is the receipt 105 based on the product data input by the first input means 109a, 110a, 111a or the product data input by the second input means 109b, 110b, 111b. The function of the notifying means for distinguishing and notifying whether the receipt 105 is based or not is executed.
[0089]
FIG. 16 is a schematic diagram showing an example of a receipt 105 issued in the dual mode. In FIG. 16, the receipt 105 has a plurality of star marks 105a printed on the right side thereof. In other words, the microcomputer 151 has a plurality of receipts 105 on the right side of the receipt 105 based on the product code for right processing input by the first input means 109a, 110a, 111a executed by the input of the first closing key 116a. With respect to the receipt 105 based on the product code for left side processing, which is input by the second input means 109b, 110b, 111b, which is executed by inputting the second fastening key 116b, printing the star mark 105a. A plurality of star marks 105a are printed on the left side. As a result, the operator can see at a glance whether the receipt 105 issued by the right side processing or the receipt 105 issued by the left side processing only by looking to which side the plurality of star marks 105a are printed. It becomes possible to recognize. In this sense, the type and form of the mark 105a may be any as long as it can distinguish between the receipt 105 issued by right side processing and the receipt 105 issued by left side processing. . Here, in the merchandise sales data processing, the receipt 105 is based on the merchandise data inputted by the first input means 109a, 110a, 111a or based on the merchandise data inputted by the second input means 109b, 110b, 111b. A function of receipt issuing means for distinguishing whether it is the receipt 105 and causing the thermal printer 103 to print and issue the receipt 105 is executed.
[0090]
In this way, when the first closing key 116a is pressed in steps S351 to S361, the merchandise sales data processing based on the merchandise data input by the first input means 109a, 110a, 111a is executed. When the second closing key 116b is pressed, the function of the closing means for executing the product sales data processing based on the product data input by the second input means 109b, 110b, 111b is executed.
[0091]
In this embodiment, the HDD 157 is applied as the storage medium storing the control program. However, the present invention is not limited to this, and the FD, optical disk (CD-ROM, CD-R, CD-R / W, DVD- ROM, DVD-RAM, etc.), magneto-optical disk (MO), memory card, and the like can be stored in any form as long as the program can be stored and the computer can read the program. Further, the storage medium is not limited to a medium independent of a computer, but also includes a program downloaded and stored or temporarily stored via a LAN, the Internet, or the like.
[0092]
[Coin deposit / withdrawal device 201]
Next, the coin deposit / withdrawal apparatus 201 will be described with reference to FIGS. 17 to 22.
[0093]
FIG. 17 is a perspective view of the coin deposit / withdrawal apparatus 201 and the banknote deposit / withdrawal apparatus 301.
[0094]
As shown in FIG. 17, the coin depositing / dispensing device 201 is used, for example, arranged at the lower stage of the banknote depositing / dispensing device 301. Such a coin depositing / dispensing device 201 stores and holds each component in a flat housing 202. The housing 202 has a front panel 203 serving as a panel facing the operator. The front panel 203 has a coin slot 204 arranged at the center thereof, and one coin payout slot 205 is arranged on each side of the coin slot 204. For convenience, the right side as viewed from the operator will be described as a coin payout exit 205a, and the left side will be described as a coin payout exit 205b. In the front panel 203, an operation display unit 206 is disposed below the coin slot 204.
[0095]
18 is a schematic cross-sectional plan view of the coin depositing and dispensing apparatus 201, FIG. 19 is a schematic vertical front view thereof, and FIG. 20 is a schematic vertical side view thereof.
[0096]
The coin slot 204 is provided with a set of three slot sensors 207 that photoelectrically detect the presence or absence of coins. The insertion port sensor 207 is a transmissive optical sensor in which a light emitting part LD made of a light emitting diode and a light receiving part PT made of a phototransistor are arranged to face each other. As shown in FIG. 19, the bottom surface of the coin insertion slot 204 is downwardly lowered as viewed from the front panel 203 so that the inserted coin can be slid toward the lower right by its own weight. It is configured. The bottom right end of the coin insertion slot 204 communicates with the coin transport flat belt 209 via a slope 208 that is disposed to the lower right when viewed from the front panel 203. As a result, coins that are inserted into the coin insertion slot 204 and slide down toward the lower right also slide down the slope 208 and fall onto the coin transport flat belt 209.
[0097]
The coin transport flat belt 209 constitutes a belt winding mechanism wound around a pair of pulleys 209a, one of which is driven to roll by a drive mechanism 210 including a motor M. And the coin conveyance flat belt 209 conveys the coin which has been inserted into the coin insertion slot 204 and slipped down straightly. In the process, the coins are aligned by an alignment roller 211 for sending out irregularly inserted coins one by one.
[0098]
The coin sorting unit 212 is in contact with the end portion of the coin transport flat belt 209. The coin sorting unit 212 includes a bending portion 213 that bends the coin conveyance direction by the coin conveyance flat belt 209 at a right angle, a coin sorting plate 214 that guides the coin that has been bent at a right angle by the bending portion 213, A coin transporting round belt 215 for transporting coins along the coin sorting plate 214; The coin conveyance round belt 215 constitutes a belt winding mechanism wound around a pair of pulleys 215a, one of which is driven to roll by a drive mechanism 210 including a motor M. In addition, the coin sorting plate 214 has a sorting hole 216 for each denomination whose hole width dimension is sequentially increased in the order in which the coins are conveyed. Six sorting holes 216 are provided so as to correspond to respective denominations of 1 yen, 5 yen, 10 yen, 50 yen, 100 yen, and 500 yen. A counting sensor 217 for counting the number of falling coins is provided corresponding to each sorting hole 216. The counting sensor 217 is a transmissive optical sensor in which a light emitting part LD made of a light emitting diode and a light receiving part PT made of a phototransistor are arranged to face each other.
[0099]
Below the coin sorting unit 212, there is provided a coin storage unit 219 having an upper opening that communicates with each of the sorting holes 216 and is partitioned for each coin by a partition plate 218. A full sensor 220 for detecting whether or not the coin storage part 219 is full is provided at the entrance for each denomination of the coin storage part 219, that is, in the vicinity of the sorting hole 216. The full sensor 220 is a transmissive optical sensor in which a light emitting part LD made of a light emitting diode and a light receiving part PT made of a phototransistor are arranged to face each other. Further, a payout belt 221 having a conveyor belt structure is provided on the bottom surface portion of each denomination of the coin storage unit 219. The payout belt 221 constitutes a belt winding mechanism wound around a pair of pulleys 221a, one of which is driven to roll by a drive mechanism 210 including a motor M. A separation roller 222 that separates the coins one by one is disposed at the outlet of the coin storage unit 219, and a predetermined number of coins are arranged in a line on the downstream side of the separation roller 222 to stand by. A coin standby unit 223 is provided for each denomination. The coin standby unit 223 is provided with a holding plate (not shown) that is dimensioned so that two or more coins do not overlap with each other on the upper portion of the payout belt 221, and temporarily stops the coins and the required number of coins. Is provided with a coin stopper 224 whose operation is controlled so as to be fed out. This coin stopper 224 is driven and controlled by a payout solenoid 225 (see FIG. 21), and pays out a designated coin and the number of coins as a result of operation control. Further, immediately after the coin stopper 224, a payout sensor 226 for checking the denomination and number of coins to be paid out to the coin payout position is provided for each denomination. The payout sensor 226 is a transmissive optical sensor in which a light emitting part LD made of a light emitting diode and a light receiving part PT made of a phototransistor are arranged to face each other.
[0100]
Moreover, the coin depositing / withdrawing apparatus 201 of the present embodiment includes a dispensing direction selection belt 227 as a left / right transport mechanism that receives coins of each denomination dispensed by the dispensing belt 221. The payout direction selection belt 227 is disposed so as to be orthogonal to the payout belts 221 at a position below the end of the payout belt 221 for each denomination. Such a payout direction selection belt 227 constitutes a belt winding mechanism wound around a pair of pulleys 227a, one of which is driven to roll by a drive mechanism 210 including a motor M. The drive mechanism 210 that rolls the payout direction selection belt 227 is configured to roll the payout direction selection belt 227 in the opposite direction.
[0101]
Further, both ends of the payout direction selection belt 227 communicate with payout slopes 228 as payout guide mechanisms that are inclined downward toward the coin payout outlets 205 arranged one by one on both sides of the coin insertion slot 204. Thereby, the coins conveyed by the rolling of the payout direction selection belt 227 slide down the payout slope 228 and fall to the coin payout outlet 205.
[0102]
Next, electrical connection of each part built in the coin depositing / dispensing apparatus 201 having such a configuration will be described with reference to FIG. FIG. 21 is a block diagram showing an electrical connection of each part built in the coin depositing / dispensing apparatus 201.
[0103]
As shown in FIG. 21, a coin depositing / dispensing apparatus 201 according to the present embodiment has a built-in microcomputer (hereinafter referred to as a microcomputer) 251, and the microcomputer 251 drives and controls each unit. A microcomputer 251 is a ROM (Read Only Memory) that stores in advance fixed data such as an operation program in a CPU (Central Processing Unit) 252 that centrally controls each unit via a bus line 253 such as an address bus or a data bus. 254, a RAM (Random Access Memory) 255 for storing data in a rewritable manner, and a communication interface 256 are connected to each other. The RAM 255 is backed up by a battery (not shown).
[0104]
The control program stored in the ROM 254 enables drive control of each unit by the microcomputer 251. Thus, as each unit that is driven and controlled by the microcomputer 251, the coin depositing / dispensing apparatus 201 of the present embodiment includes an operation display unit 206 connected to the microcomputer 251 through the bus line 253 and a driving mechanism 210 using the motor M as a driving source. , And a dispensing solenoid 225. Various sensors, that is, the inlet sensor 207, the counting sensor 217, the full sensor 220, and the payout sensor 226 are also connected to the microcomputer 251 via the bus line 253, and the sensing results are transmitted to the microcomputer 251. .
[0105]
Here, the drive mechanism 210 drives and controls the coin transport flat belt 209, the coin transport round belt 215, the payout belt 221, the payout direction selection belt 227, the alignment roller 211, and the separation roller 222. In this case, the drive mechanism 210 has a structure that allows the coin transport flat belt 209, the coin transport round belt 215, the payout belt 221 and the payout direction selection belt 227 to be independently driven and controlled. As a structure for independently driving and controlling the driving object, for example, a plurality of motors M that are driving sources are provided, a clutch mechanism is employed, or various known structures can be employed.
[0106]
Next, the operation will be described.
[0107]
When a coin is inserted into the coin slot 204, the slot sensor 207 detects the coin, and the microcomputer 251 drives the coin transport belt flat 209. As a result, the coins are conveyed to the coin conveyance belt flat 209, changed in the direction of a right angle by the bending portion 213, and then conveyed to the coin conveyance round belt 215, and the coin sorting unit 212 performs sorting for each denomination. That is, it falls into the sorting hole 216 according to the denomination and is stored in the coin storage part 219. The number of coins dropped from the sorting hole 216 is counted by the counting sensor 217. The coins that have fallen into the coin storage unit 219 are conveyed to the payout belt 221 and are in a standby state at the coin standby unit 223.
[0108]
FIG. 22 is a flowchart showing the flow of processing when a payout instruction signal is received from the POS terminal 101.
[0109]
Processing when a payout instruction signal is received from the POS terminal 101 will be described based on the flowchart of FIG. First, when receiving a payout instruction signal from the POS terminal 101, the microcomputer 251 determines whether the payout instruction signal is accompanied by a first tightening signal (step S401). If the payout instruction signal is not accompanied by the first closing signal, it is determined whether or not the payout instruction signal is accompanied by the second closing signal (step S402). The case where the payout instruction signal is accompanied by the first closing signal is the case where the POS terminal 101 is set to the single mode or the mode is set to the dual mode. This is either when the tightening process is declared by the key 116a. In the dual mode, the fact that the tightening process is declared by the first tightening key 116a means that the right-side process has been executed in the POS terminal 101. The case where the second tightening signal is accompanied by the payout instruction signal is when the POS terminal 101 is set to the dual mode and the tightening process is declared by the second tightening key 116b. Is the case. In the dual mode, the fact that the tightening process is declared by the second tightening key 116b means that the left-side process is being executed in the POS terminal 101.
[0110]
If it is determined in step S401 that the payout instruction signal is accompanied by the first tightening signal, the microcomputer 251 controls the drive mechanism 210 to operate the payout belt 221 and the payout solenoid 225 (step S403). Step S404). At this time, the microcomputer 251 refers to the deposit / withdrawal data associated with the dispensing instruction signal, obtains the dispensing belt 221 and the dispensing solenoid 225 of the denomination to be driven, and the driving time thereof, and calculates the determined denomination dispensing belt. 221 and the dispensing solenoid 225 are driven for the determined driving time. As a result, coins corresponding to the amount instructed by the POS terminal 101 are paid out from the payout belt 221 to the payout direction selection belt 227.
[0111]
At this time, the microcomputer 251 recognizes and confirms how many coins of which denomination have been paid based on the output of the payout sensor 226 (step S405).
[0112]
Then, the microcomputer 251 controls the drive mechanism 210 to operate the payout direction selection belt 227 (step S406). At this time, since it is determined in step S401 that the payout instruction signal is accompanied by the first tightening signal, the payout direction selection belt is set in a direction in which the coin is paid out from the coin payout outlet 205a located on the right side when viewed from the operator. 227 is driven. Thereby, the change is paid out from the coin payout outlet 205a located on the right side when viewed from the operator so as to be adapted to the right side processing executed in the POS terminal 101 in the dual mode.
[0113]
When the change has been paid out, the microcomputer 251 performs a stop process and ends the process (step S407).
[0114]
On the other hand, when it is determined in step S402 that the payout instruction signal is accompanied by the second tightening signal, the microcomputer 251 controls the drive mechanism 210 to change the payout belt 221 and the payout solenoid 225. Operate (step S408, step S409). At this time, the microcomputer 251 refers to the deposit / withdrawal data associated with the withdrawal instruction signal, obtains the delivery belt 221 and delivery solenoid 225 of the denomination to be driven, and the driving time thereof, and obtains the determined denomination delivery belt. 221 and the dispensing solenoid 225 are driven for the determined driving time. As a result, coins corresponding to the amount instructed by the POS terminal 101 are paid out from the payout belt 221 to the payout direction selection belt 227.
[0115]
At this time, the microcomputer 251 recognizes and confirms how many coins of which denomination have been paid based on the output of the payout sensor 226 (step S410).
[0116]
Then, the microcomputer 251 controls the drive mechanism 210 to operate the payout direction selection belt 227 (step S411). At this time, since it is determined in step S402 that the payout instruction signal is accompanied by the second tightening signal, the payout direction selection belt is set in the direction in which the coin is paid out from the coin payout outlet 205a located on the left side when viewed from the operator. 227 is driven. Thereby, the change is paid out from the coin payout outlet 205a located on the left side as viewed from the operator so as to be adapted to the left side processing executed in the POS terminal 101 in the dual mode.
[0117]
When the change has been paid out, the microcomputer 251 performs a stop process and ends the process (step S412).
[0118]
Here, in response to the input of the first fastening signal, the delivery direction selection belt 227, which is a left-right conveyance mechanism, is driven and controlled in the direction of paying out the coins from one of the coin dispensing outlets 205a, and in response to the input of the second fastening signal. Then, the function of the drive control means for driving and controlling the payout direction selection belt 227 which is the left and right transport mechanism in the direction of paying out coins from the other coin payout outlet 205b is executed.
[0119]
In this embodiment, an example in which coins are paid out from the right coin payout outlet 205a when the POS terminal 101 is in the single mode is shown. However, in the implementation, when the POS terminal 101 is in the single mode, You may comprise so that a coin may be paid out from the payout exit 205b.
[0120]
[Bill deposit / withdrawal device 301]
Next, the banknote depositing / withdrawing apparatus 301 will be described with reference to FIGS. 17 and 23 to 28.
[0121]
FIG. 17 is a perspective view of the coin deposit / withdrawal apparatus 201 and the banknote deposit / withdrawal apparatus 301.
[0122]
As shown in FIG. 17, the banknote deposit / withdrawal device 301 is used, for example, disposed on the upper stage of the coin deposit / withdrawal device 201. Such a bill depositing / dispensing apparatus 301 stores and holds each component in a flat housing 302. The housing 302 has a front panel 303 serving as a panel facing the operator. The front panel 303 has a bill insertion slot 304 arranged at the center thereof, and one bill discharge outlet 305 is arranged on each side of the bill insertion slot 304. For convenience, the right side as viewed from the operator will be described as a banknote payout exit 305a, and the left side will be described as a banknote payout exit 305b.
[0123]
23 is a schematic cross-sectional plan view of the banknote depositing / withdrawing apparatus 301, FIG. 24 is a schematic longitudinal front view thereof, FIG. 25 is a cross-sectional view taken along line AA in FIG. 23, and FIG. .
[0124]
The bill deposit / withdrawal apparatus 301 according to the present embodiment schematically guides the bill P inserted from the bill insertion slot 304 to the central path 306 that directly communicates with the bill insertion slot 304, and the bill is transferred during this guidance. The denominations are stored in denominations in banknote storage units 307 of denominations arranged in sequence below the central path 306. Then, in response to the discharge instruction signal from the POS terminal 101, the banknotes stored in the banknote storage unit 307 in denomination are selectively paid out from the two banknote outlets 305. Therefore, a banknote storage structure 308 is provided as a structure for storing the banknotes in denominations in the banknote storage units 307 of the denominations arranged in order below the central path 306, and the banknotes are selectively selected from the two banknote outlets 305. A bill payout structure 309 is provided as a structure for paying out money. Hereinafter, the banknote deposit and withdrawal device 301 will be described in detail.
[0125]
First, the bill slot 304 is provided with a slot sensor 310 that photoelectrically detects the presence or absence of a bill. The insertion port sensor 310 is a transmissive optical sensor in which a light emitting part LD made of a light emitting diode and a light receiving part PT made of a phototransistor are arranged to face each other.
[0126]
A pair of loading rollers 311 is provided in the vicinity of the bill insertion slot 304 on the back side of the insertion slot sensor 310. The loading roller 311 is driven and rotated by a roller driving mechanism 312 (see FIG. 27) using the motor M as a driving source, and loads a bill inserted into the bill insertion slot 304 into the central path 306.
[0127]
Further, a banknote sensor 313 that detects the presence or absence of the banknote P loaded in the central path 306 is provided on the further back side than the loading roller 311.
[0128]
Next, the bill storage structure 308 will be described. FIG. 25 shows the banknote storage structure 308 well. Therefore, the description will be made mainly with reference to FIG.
[0129]
The central path 306 that communicates straight with the bill insertion slot 304 is formed by a pair of holding plates SP that face each other with a minute gap that holds the bill P inserted into the bill insertion slot 304 movably. Below such a central path 306, denomination banknote storage units 307 are arranged in order. Although the arrangement order is not limited, for example, the bills are arranged in the order of 1000 yen, 5000 yen, 10000 yen, and 2000 yen in order from the bill insertion slot 304.
[0130]
In such a central path 306, a plurality of storing and conveying rollers 314 that are driven and rotated by a roller driving mechanism 312 (see FIG. 27) using the motor M as a driving source to apply a conveying force to the bills P are disposed. Has been. The storage and conveyance roller 314 constitutes a storage and conveyance unit. And a part of these storage conveyance rollers 314 is positioned above the rear end of each banknote storage part 307 provided for each denomination. The storage conveyance roller 314 positioned above the rear end of each banknote storage unit 307 is referred to as a direction changing roller 314a for convenience.
[0131]
The holding plate SP is interrupted at the position of the direction changing roller 314a. In addition, a plurality of switching plates 315 are provided that can freely move back and forth from these interrupted portions to the central path 306. These switching plates 315 are rotatably supported, and can be moved back and forth in the central path 306 by being driven and rotated by a storage solenoid 316 (see FIG. 27). When the switching plate 315 enters the central path 306, the bills P guided and conveyed along the central path 306 are blocked from proceeding straight by the switching plate 315, and are centered along the curve shape attached to the switching plate 315. The bill is stored in the banknote storage unit 307 disposed below the path 306. Therefore, the banknote P in progress in the central path 306 is guided to the switching board 315 by causing the switching board 315 positioned above the rear end of the banknote storage unit 307 to store the banknote P to enter the central path 306. It is stored in a desired banknote storage unit 307.
[0132]
But about the banknote storage part 307 furthest away from the banknote slot 304, such a switch board 315 is not provided, and the holding plate SP is not provided above the banknote storage part 307. Therefore, the banknote P that travels through the central path 306 is exclusively stored in the banknote storage unit 307 farthest from the banknote insertion slot 304 by free fall.
[0133]
In this way, a bill storage mechanism is configured that introduces the bill P transported through the central path 306 into the bill storage unit 307 by denomination.
[0134]
Furthermore, as shown in FIG. 24, each banknote storage unit 307 is provided with a pair of banknote pressers 317 for pressing and holding the banknotes P stored in the banknote storage part 307. These banknote pressers 317 are instructed to be freely rotatable between a presser position where the banknotes P are pressed and a retreat position where the introduction of the banknotes P into the banknote storage unit 307 is not hindered, and is driven by a banknote presser solenoid 318 (see FIG. 27). By being rotated, it is selectively positioned at the presser position and the retracted position.
[0135]
Next, the banknote dispensing structure 309 will be described. 24 and 26 show the banknote dispensing structure 309 well. Therefore, description will be made with reference to FIGS.
[0136]
The bill storage unit 307 stores and holds the bills P in a stacked state. In such a banknote storage unit 307, the banknote P positioned at the lowest position is separated by a pair of rotatable pickup rollers 319 whose both sides are in the same direction as the traveling direction of the banknote P in the central path 306. It is supported. These pickup rollers 319 are driven and rotated by a roller driving mechanism 312 (see FIG. 27) using the motor M as a driving source, and the banknote P located at the lowest position in the banknote storage unit 307 is orthogonal to the central path 306. The conveyance force to is given. As a result, the banknote P positioned at the lowest position in the banknote storage unit 307 is picked up by the pickup roller 319 and conveyed in a direction orthogonal to the central path 306. Separated and fed from the stacked banknotes P. In this case, the lowest banknote P can be separated and fed in either the left or right direction depending on which one of the pair of pickup rollers 319 is driven.
[0137]
A banknote payout path 320 is disposed at the destination of the banknote P picked up and fed to the pickup roller 319. That is, a pair of banknote payout paths 320 are arranged in parallel on both sides of the central path 306. These banknote payout paths 320 are configured by a flat plate member that communicates with the banknote storage unit 307. The banknote payout path 320 is provided with a plurality of feed rollers 321 for transporting the banknote P picked up and fed to the pickup roller 319 to a fixed position. These feed rollers 321 have a rotation axis parallel to the pickup roller 319 and are driven to rotate by a roller drive mechanism 312 (see FIG. 27) using the motor M as a drive source.
[0138]
In this way, a left-right transfer mechanism is configured to selectively transfer the banknotes P stored in the banknote storage unit 307 by denomination to the left and right banknote dispensing paths 320 one by one.
[0139]
Next, a payout roller group 322 that constitutes a payout mechanism is provided on the banknote payout path 320. That is, as shown in FIG. 26, the payout roller group 322 includes a payout structure 325 in which a plurality of payout rollers 324 are rotatably attached to a rod-like link 323 and is rotatably supported at both ends of the link 323. It is configured. As a result, the payout structure 325 contacts and separates from the banknote payout path 320 according to the turning operation. Such rotation of the payout structure 325 is realized by driving a payout solenoid 326 (see FIG. 27), and the plurality of payout rollers 324 has a roller drive mechanism 312 (see FIG. 27) using the motor M as a drive source. Driven to rotate. Thereby, the bill P transferred onto the bill dispensing path 320 is dispensed toward the bill dispensing outlet 305 by lowering the dispensing structure 325 and rotationally driving the plurality of dispensing rollers 324. At this time, the payout final roller 327 provided in the vicinity of the banknote payout outlet 305 on the banknote payout path 320 assists the reliable payout of the banknote P to the banknote payout outlet 305. Such a payout final roller 327 is also driven to rotate by a roller drive mechanism 312 (see FIG. 27) using the motor M as a drive source.
[0140]
Next, electrical connection of each part built in the bill depositing / dispensing apparatus 301 having such a configuration will be described with reference to FIG. FIG. 27 is a block diagram showing an electrical connection of each part built in the banknote depositing / withdrawing apparatus 301.
[0141]
As shown in FIG. 27, the banknote depositing / withdrawing apparatus 301 of this Embodiment incorporates Microcomputer (henceforth a microcomputer) 351, and this microcomputer 351 drive-controls each part. The microcomputer 351 is a ROM (Read Only Memory) that stores in advance fixed data such as operation programs in a CPU (Central Processing Unit) 352 that centrally controls each unit via a bus line 353 such as an address bus and a data bus. 354, a RAM (Random Access Memory) 355 for storing data in a rewritable manner, and a communication interface 356 are connected to each other. The RAM 355 is backed up by a battery (not shown).
[0142]
The control program stored in the ROM 354 enables driving control of each unit by the microcomputer 351. In this way, the bill depositing / dispensing apparatus 301 according to the present embodiment is a roller driving mechanism 312 and a storage solenoid 316 that use the motor M connected to the microcomputer 351 through the bus line 353 as driving units. , A bill presser solenoid 318 and a payout solenoid 326 are provided. Various sensors, that is, the slot sensor 310 and the bill sensor 313 are also connected to the microcomputer 351 via the bus line 353, and the sensing results are transmitted to the microcomputer 351.
[0143]
Here, the roller driving mechanism 312 controls driving of the loading roller 311, the storage and conveyance roller 314, the pickup roller 319, the feed roller 321, the payout roller 324, and the payout final roller 327. In this case, the roller drive mechanism 312 has a structure that allows the loading roller 311, the storage and conveyance roller 314, the pickup roller 319, the feed roller 321, the discharge roller 324, and the discharge final roller 327 to be independently driven and controlled. As a structure for independently driving and controlling the driving object, for example, a plurality of motors M that are driving sources are provided, a clutch mechanism is employed, or various known structures can be employed.
[0144]
Next, the operation will be described.
[0145]
When the bill P is inserted into the bill insertion slot 304, the inserted bill P is detected by the insertion port sensor 310. In response to this, the microcomputer 351 drives the loading roller 311 by the roller driving mechanism 312 to load the bill P inside. The loaded banknote P is guided to the central path 306 and conveyed to the storage and conveyance roller 314 driven by the roller driving mechanism 312.
[0146]
In the process, the denomination of the banknote P is determined by the output signal of the banknote sensor 313. The denomination of the banknote P is determined based on the length of the banknote P that can be recognized from the conveyance speed of the banknote P, for example. But if the sensor which can extract | collect the characteristic of the banknote P is provided as the banknote sensor 313, it is also possible to discriminate the denomination of the banknote P based on the characteristic of the banknote P.
[0147]
When the denomination of the banknote P is determined, the banknote P being conveyed is stored in the banknote storage unit 307 corresponding to the denomination. For this purpose, the microcomputer 351 drives the storage solenoid 316 immediately before the banknote reaches the banknote storage unit 307 to store the banknote P, and rotates the switching plate 315 to enter the central path 306. As a result, the banknote P in the middle of the central path 306 is blocked from going to the switching plate 315 and is turned toward the banknote storage unit 307 corresponding to the denomination. At this time, the microcomputer 351 drives the bill press solenoid 318 to position the bill presser 317 at the retracted position, and prevents interference with the bill P. Thereby, the banknote P is accommodated in the banknote accommodating part 307 corresponding to a denomination.
[0148]
FIG. 28 is a flowchart showing the flow of processing when a payout instruction signal is received from the POS terminal 101.
[0149]
Processing when a payout instruction signal is received from the POS terminal 101 will be described based on the flowchart of FIG. First, when receiving a payout instruction signal from the POS terminal 101, the microcomputer 351 determines whether or not the payout instruction signal is accompanied by a first tightening signal (step S501). If the payout instruction signal is not accompanied by the first closing signal, it is determined whether or not the payout instruction signal is accompanied by the second closing signal (step S502). The case where the payout instruction signal is accompanied by the first closing signal is the case where the POS terminal 101 is set to the single mode or the mode is set to the dual mode. This is either when the tightening process is declared by the key 116a. In the dual mode, the fact that the tightening process is declared by the first tightening key 116a means that the right-side process has been executed in the POS terminal 101. The case where the second tightening signal is accompanied by the payout instruction signal is when the POS terminal 101 is set to the dual mode and the tightening process is declared by the second tightening key 116b. Is the case. In the dual mode, the fact that the tightening process is declared by the second tightening key 116b means that the left-side process is being executed in the POS terminal 101.
[0150]
If it is determined in step S501 that the payout instruction signal is accompanied by the first tightening signal, the microcomputer 351 refers to the deposit / withdrawal data accompanying the payout instruction signal and denominations to be driven. The right pickup roller 319 is operated as viewed from the operator corresponding to (Step S503), then the right feeding roller 321 is operated (Step S504), and the banknote P positioned at the lowest position from the banknote storage unit 307 is moved to the right side. The pickup is fed toward the bill payout path 320. The pickup roller 319 and the feed roller 321 are driven by controlling the roller driving mechanism 312.
[0151]
Thereafter, the microcomputer 351 drives the dispensing solenoid 326 to lower the right dispensing structure 325 at the timing when the bill P reaches the right bill dispensing path 320 (step S505). As a result, the plurality of payout rollers 324 provided in the payout structure 325 come into contact with the banknote P.
[0152]
In step S506, the microcomputer 351 controls the roller driving mechanism 312 to drive the right delivery roller 324 (step S506), and then drives the right delivery final roller 327 (step S507). As a result, change is paid out from the coin payout outlet 205a located on the right side as viewed from the operator so as to be compatible with the right side processing executed in the POS terminal 101 in the dual mode.
[0153]
When the change has been paid out, the microcomputer 251 performs a stop process and ends the process (step S508).
[0154]
On the other hand, when it is determined in step S502 that the payout instruction signal is accompanied by the second closing signal, the microcomputer 351 refers to the deposit / withdrawal data accompanying the payout instruction signal, The left pickup roller 319 is operated as viewed from the operator corresponding to the denomination to be driven (step S509), then the left feeding roller 321 is operated (step S510), and is positioned at the lowest position from the bill storage unit 307. The banknote P is picked up and fed toward the banknote dispensing path 320 on the left side. The pickup roller 319 and the feed roller 321 are driven by controlling the roller driving mechanism 312.
[0155]
Thereafter, the microcomputer 351 drives the dispensing solenoid 326 to lower the left dispensing structure 325 at the timing when the bill P reaches the left bill dispensing path 320 (step S511). As a result, the plurality of payout rollers 324 provided in the payout structure 325 come into contact with the banknote P.
[0156]
In step S512, the microcomputer 351 controls the roller driving mechanism 312 to drive the left payout roller 324 (step S512), and then drives the left payout final roller 327 (step S513). As a result, the change is paid out from the coin payout outlet 205a located on the left side as viewed from the operator so as to be adapted to the left side processing executed in the POS terminal 101 in the dual mode.
[0157]
When the change has been paid out, the microcomputer 251 performs a stop process and ends the process (step S514).
[0158]
Here, the banknote P stored in the banknote storage unit 307 storing the denomination to be paid out is transferred to the banknote payout path 320 corresponding to the banknote payout outlet 305 to be discharged, and transferred to the banknote payout path 320. The bill P is conveyed toward the bill payout exit 305, whereby the bill P is paid out from the one bill payout exit 305a in response to the input of the first closing signal, and the bill is discharged in accordance with the input of the second closing signal. The function of the drive control means for driving and controlling the banknote payout structure 309 so as to pay out the banknote P from one banknote payout outlet 305b is executed.
[0159]
In the present embodiment, an example in which coins are paid out from the right banknote outlet 305a when the POS terminal 101 is in the single mode is shown. However, in implementation, the left banknote is displayed when the POS terminal 101 is in the single mode. You may comprise so that the banknote P may be paid out from the payout exit 305b.
[0160]
[Usage of the entire system]
As described above, in the system according to the present embodiment, it is possible to select two types of usage, that is, use in the single mode and use in the dual mode. Therefore, it is possible to normally use the single mode and use the dual mode when busy. In this case, the single POS terminal 101, the coin depositing / dispensing device 201, and the bill depositing / dispensing device 301 can be used in the single mode or the dual mode, so that customers can be efficiently sought without using a large-scale device. It becomes possible.
[0161]
Here, in the present embodiment, in the dual mode, the first input means (for example, the first keyboard 110a and the first scanner 111a) is used for the product data of the products purchased by the customers on the right side as viewed from the operator. Etc.) and second input means (for example, the first keyboard 110b, the first scanner 111b, etc.), the input means arranged on the right side, in the present embodiment, by the first input means 109a, 110a, 111a The merchandise information can be input, and merchandise sales information based on the entered merchandise data is displayed on the right side on the operator display 107 and on the left side on the customer display 120. At this time, the right-side display frame of the operator display 107 is displayed in green, and the first keyboard 110a and the left and right display portions 117a and 118a of the first scanner 111a are lit in green. It is possible to easily discriminate between right and left objects to be seen. Further, in the merchandise sales data processing, immediately before the receipt 105 is issued, the left and right display units 119a located on the right side in the vicinity of the receipt issuing port 106 are lit in green. It is easily determined whether it is issued. The receipt 105 can be easily identified from the receipt 105 itself by the mark 105a printed on the receipt 105. Furthermore, in the coin deposit / withdrawal apparatus 201 and the banknote deposit / withdrawal apparatus 301, coins are dispensed from the right coin dispensing outlet 205a and the banknotes are dispensed from the right banknote dispensing outlet 305a in response to a coin or banknote dispensing instruction.
[0162]
Further, for product data of products purchased by customers on the left side as viewed from the operator, the first input means (for example, the first keyboard 110a, the first scanner 111a, etc.) and the second input means (for example, The product information can be input by input means 109b, 110b, 111b arranged on the left side of the first keyboard 110b, the first scanner 111b, etc.), and the product sales information based on the input product data is displayed for the operator. The left side is displayed on the display 107 and the right side is displayed on the customer display 120. At this time, the left display frame of the operator display 107 is displayed in orange, and the left and right display portions 117b and 118b of the second keyboard 110b and the second scanner 111b are lit in orange. It is possible to easily discriminate between right and left objects to be seen. Further, in the merchandise sales data processing, immediately before the receipt 105 is issued, the left and right display portions 119b located on the left side in the vicinity of the receipt issuing port 106 are lit in orange. It is easily determined whether it is issued. The receipt 105 can be easily identified from the receipt 105 itself by the mark 105a printed on the receipt 105. Furthermore, in the coin depositing / dispensing device 201 and the bill depositing / dispensing device 301, coins are dispensed from the left coin dispensing outlet 205b and bills are dispensed from the left banknote dispensing outlet 305b in response to a coin or bill dispensing instruction.
[0163]
Therefore, in the dual mode, a series of product sales operations can be performed by an operation and a display for thinking customers on the right side as viewed from the operator, and the customers on the left side as viewed from the operator can think of the left side. A series of merchandise sales operations can be performed by operation and display.
[0164]
【The invention's effect】
The invention of the banknote dispensing apparatus according to the present invention has a banknote insertion slot arranged at the center of the panel facing the operator, and one banknote outlet is arranged on each of the left and right sides of the banknote insertion slot, and is inserted into the banknote insertion slot. A banknote dispensing structure is provided in which the banknotes are transported and stored in the banknote storage unit according to denomination, and the banknotes stored in the banknote storage unit according to the denomination are selectively delivered to two banknote outlets. The two banknote depositing / withdrawing devices can win two customers. Therefore, customers can be efficiently sought without using a large-scale device.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an external appearance of a POS terminal, a coin depositing / dispensing apparatus, and a bill depositing / dispensing apparatus as an embodiment of the present invention.
FIG. 2 is a plan view of the keyboard.
FIG. 3 is a perspective view showing a part of the appearance of a POS terminal, a coin deposit / withdrawal apparatus, and a banknote deposit / withdrawal apparatus.
FIG. 4 is a rear view of a POS terminal, a coin deposit / withdrawal apparatus, and a banknote deposit / withdrawal apparatus as seen from the customer side.
FIG. 5 is a block diagram of electrical connection of each unit in the POS terminal.
FIG. 6 is a flowchart showing a mode selection process between a single mode and a dual mode in a registration process mode.
FIG. 7 is a flowchart showing processing in a single mode.
FIG. 8 is a flowchart showing processing in a dual mode.
FIG. 9 is a flowchart showing right-side processing and left-side processing in the dual mode.
FIG. 10 is a schematic diagram showing a screen display example on the operator display in the single mode.
FIG. 11 is a schematic diagram showing a screen display example on a customer display in a single mode.
FIG. 12 is a schematic diagram showing a screen display example on the operator display in the dual mode.
FIG. 13 is a schematic diagram showing a screen display example on the customer display in the dual mode.
FIG. 14 is a schematic diagram showing a screen display example different from FIG. 13 in the customer display in the dual mode.
FIG. 15 is a schematic diagram showing a screen display example different from those shown in FIGS. 13 and 14 in the customer display in the dual mode.
FIG. 16 is a schematic diagram showing an example of a receipt issued in the dual mode.
FIG. 17 is a perspective view of a coin deposit / withdrawal apparatus and banknote deposit / withdrawal apparatus.
FIG. 18 is a schematic cross-sectional plan view of a coin deposit / withdrawal apparatus.
FIG. 19 is a schematic longitudinal sectional front view thereof.
FIG. 20 is a schematic vertical side view thereof.
FIG. 21 is a block diagram of electrical connection of each part in the coin deposit / withdrawal apparatus.
FIG. 22 is a flowchart showing a processing flow when a payout instruction signal is received from a POS terminal.
FIG. 23 is a schematic cross-sectional plan view of the banknote deposit and withdrawal device.
FIG. 24 is a schematic longitudinal sectional front view thereof.
25 is a cross-sectional view taken along line AA in FIG.
26 is a cross-sectional view taken along line BB in FIG.
FIG. 27 is a block diagram of electrical connection of each part in the banknote deposit and withdrawal device.
FIG. 28 is a flowchart showing a processing flow when a payout instruction signal is received from a POS terminal.
[Explanation of symbols]
303 Panel (front panel)
304 bill insertion slot
305 (305a, 305b) Banknote payout exit
306 Central route
307 bill storage part
308 bill storage structure
309 bill payout structure
314 Storage / conveyance unit (storage / conveyance roller)
320 banknote payout route
322 Dispensing mechanism (dispensing roller group)

Claims (1)

A bill insertion slot arranged at the center of the panel facing the operator;
Banknote dispensing outlets arranged one by one on both the left and right sides of the banknote insertion slot;
A banknote storage unit for storing banknotes by denomination,
A banknote storage structure for transporting banknotes inserted into the banknote slot and storing them in denominations in the banknote storage section;
A banknote payout structure for selectively paying out banknotes stored by money type in the banknote storage section to the two banknote outlets;
Equipped with,
The bill storage structure is:
A central path that communicates straight with the bill slot;
A storage and conveyance unit that conveys the bill inserted into the bill insertion slot along the central path,
The banknote storage unit arranged in denomination along the central transport path below,
A banknote storage mechanism for introducing the banknotes conveyed through the central path into the banknote storage section by denomination,
Comprising
The bill dispensing structure is
A pair of banknote payout paths that are arranged in parallel on the left and right sides of the central transport path and communicate directly with the two banknote payout outlets;
A left-right transfer mechanism that selectively transfers one-by-one banknotes stored in the banknote storage unit by money type to the left and right banknote payout paths;
A payout mechanism that transports the banknotes transferred to the banknote payout path toward the banknote payout outlet that communicates with the banknote payout path and pays out the banknote payout outlet;
Comprising
Banknote deposit and withdrawal device.

Images