JP6992149B2 - Portable communication terminal and its program, control method - Google Patents

Description

Embodiments of the present invention relate to a portable communication terminal , a program thereof, and a control method.

A product sales processing system that allows consumers to self-register purchased products by operating the user terminal to read the identification code of the purchased product when the consumer picks up the purchased product at the sales floor is already known. ing.

In this type of product sales processing system, a method in which a store rents a user terminal to a consumer is common. For example, a store prepares a shopping cart to which a user terminal is attached, and a consumer operates the user terminal to read the identification code of the purchased product when putting the purchased product in the shopping cart. In the case of this method, the user terminal is a device dedicated to the store. Therefore, the store-specific information can be set in the user terminal in advance.

On the other hand, it is considered to use a communication terminal such as a smartphone owned by a consumer as a user terminal. When a personally owned communication terminal can be used as a user terminal, consumers will be able to self-register purchased products at a plurality of stores in which a product sales processing system is installed. However, in order to use a personally owned communication terminal as a user terminal, the communication terminal needs to be correctly connected to the server of the store.

Special Table 2014-516430 Gazette

The problem to be solved by the embodiment of the present invention is a product sales processing system capable of correctly connecting a personally owned communication terminal to a server of a store and using the communication terminal as a self-registered user terminal. It is intended to provide a portable communication terminal used in the above, a program thereof, and a control method.

In one embodiment, the program of the portable communication terminal causes the computer to function as an acquisition means, an input means, and a control means. The acquisition means acquires information related to wireless communication with the store system . The input means inputs an identification code for identifying the product. The control means performs wireless communication based on the information related to the wireless communication acquired by the acquisition means, and enables the input means to input the identification code on condition that the control means is connected to the system .

The schematic block diagram of the product sales processing system which concerns on one Embodiment. The schematic diagram which shows the data structure of the store setting information. A block diagram showing a circuit configuration of a main part of a user terminal. The schematic diagram which shows the structure of the management table. A block diagram showing a circuit configuration of a main part of a store server. A block diagram showing a main circuit configuration of a virtual POS server. A flow chart showing a main procedure of information processing executed by a processor of a user terminal based on a shopping support program. A flow chart showing a main procedure of information processing executed by a processor of a user terminal based on a shopping support program. A flow chart showing a main procedure of information processing executed by a processor of a user terminal based on a shopping support program. A flow chart showing a main procedure of information processing executed by a processor of a store server based on a control program. The flow chart which shows the main part procedure of the information processing which a processor of a virtual POS server executes based on a control program. The flow chart which shows the main part procedure of the information processing which a processor of a virtual POS server executes based on a control program. A flow chart showing a main procedure of information processing executed by a processor of a store server based on a control program. The schematic diagram which shows an example of the check-in screen displayed on a user terminal. The schematic diagram which shows an example of the camera screen displayed on a user terminal. The schematic diagram which shows an example of the camera screen displayed on a user terminal. The schematic diagram which shows an example of the wireless connection screen displayed in a user terminal. The schematic diagram which shows an example of the check-in completion screen displayed on a user terminal. The schematic diagram which shows an example of the registration screen displayed on a user terminal. The schematic diagram which shows an example of the registration screen displayed on a user terminal. The schematic diagram which shows an example of the payment selection screen displayed on a user terminal. The schematic diagram which shows an example of the accounting bar code screen displayed on a user terminal.

Hereinafter, a product sales processing system capable of correctly connecting a personally owned communication terminal to a store server and using the communication terminal as a self-registered user terminal, a product sales processing device used in this system, and the product sales processing device thereof. An embodiment of the control program and the product sales processing method will be described with reference to the drawings.

FIG. 1 is a schematic configuration diagram of a product sales processing system 1 according to the present embodiment. The product sales processing system 1 includes a product sales processing device 2 and a user terminal 3. The product sales processing device 2 has a store server 21, a virtual POS server 22, a communication server 23, an accounting machine 24, and an access point 25, and these are connected by a wired LAN (Local Area Network) 26. The product sales processing device 2 correctly connects the user terminal 3 to the store server 21, the virtual POS server 22, and the like according to the product sales processing method according to the present embodiment, and enables self-registration using the user terminal 3. It is a device. Although not shown, the product sales processing device 2 can connect a plurality of user terminals 3 to a store server 21, a virtual POS server 22, etc. at a time, and can perform self-registration using each user terminal 3. Is to be.

The store server 21 is a computer that supports overall store operations. The virtual POS server 22 is a computer that cooperates with the user terminal 3 to support the appearance of a well-known POS terminal as if it were operating. The communication server 23 is a server for supporting data communication with an external system through the network 4.

The accounting machine 24 is a terminal for settling the purchased product. The payment method is not particularly limited. Well-known payment methods such as cash payment, credit card payment, and electronic money payment can be used.

The accounting machine 24 may have a function of registering purchased products. For example, when the barcode of the purchased product is read by the scanner connected to the accounting machine 24, the accounting machine 24 makes an inquiry to the store server 21 with the product code included in the barcode. In response to this inquiry, the store server 21 calls the product data such as the product name and price of the product identified by the product code from the product master file 61 (see FIG. 5) described later, and outputs the response to the accounting machine 24. , The accounting machine 24 registers the sales data of the purchased product based on the product data. Then, the accounting machine 24 makes a payment for the purchased product.

Such accounting machines 24 include a manned accounting machine in which a clerk inputs information for payment and a self-accounting machine in which a consumer inputs information for payment. The product sales processing device 2 may be provided with both a manned accounting machine and a self-accounting machine, or may be provided with only one of them. As a manned accounting machine, a conventionally known POS terminal can be applied. As the self-accounting machine, a conventionally known self-type or semi-self-type accounting machine can be applied.

The access point 25 is located in the store as a relay base when each server (store server 21, virtual POS server 22, communication server 23, etc.) of the product sales processing device 2 performs data communication with the user terminal 3 via a wireless LAN. It is an installed communication facility. The wireless LAN conforms to, for example, a Wi-Fi (registered trademark) standard. Although only one access point 25 is shown in FIG. 1, the number of access points 25 is not limited. A plurality of access points 25 may be connected to the wired LAN 26 depending on the scale of the store and the like.

The product sales processing device 2 having such a configuration is provided in each of a plurality of stores that enable self-registration of purchased products, using a communication terminal such as a smartphone owned by a consumer as a user terminal 3. Alternatively, it may be provided in a store that enables self-registration of purchased products by using a communication terminal such as a store-owned tablet terminal attached to a shopping cart as a user terminal. In this case, in the store, the personally owned communication terminal and the store-owned communication terminal can be used together as a user terminal.

The user terminal 3 is a portable communication terminal. Although the details will be described later, the user terminal 3 has at least hardware for reading the data code 5 of the two-dimensional code system. For example, a commercially available smartphone, tablet terminal, or the like equipped with a digital camera can be used as the user terminal 3. In the present embodiment, a communication terminal such as a smartphone personally owned by the consumer is used as the user terminal 3.

The data code 5 is a kind of medium prepared for each store. The data code 5 is prepared, for example, at the entrance of the store. The data code 5 is a code of the store setting information 50 (see FIG. 2) peculiar to the store or the business entity that operates the store, in a predetermined two-dimensional code system. The items of the store setting information 50 are common regardless of the store. Information on each item is different for each store.

FIG. 2 is a schematic diagram showing the data structure of the store setting information 50. As shown in FIG. 2, the store setting information 50 includes a store entry flag, a company code, a store code, wireless connection information, and control information.

The store entry flag is 1-bit data for identifying whether or not the data code of the two-dimensional code system is the data code 5 for entering the store. In the present embodiment, the entry flag of the data code 5 for entry is set to "1".

The company code is the company identification data set for each company in order to identify the company that operates the store in which the data code 5 is prepared. The store code is store identification data set for each store in order to identify the store for which the data code 5 is prepared. The store code does not prevent duplication between different business entities.

The wireless connection information is information necessary for the product sales processing device 2 of the store specified by the company code and the store code and the user terminal 3 to be connected by wireless communication. For example, the SSID (Service Set Identifier) which is the identification name of the access point 25, the password set in the wireless LAN in the store, and the security method (WPA2-PSK, WPA-PSK, WEP, etc.) set in the wireless LAN in the store. The wireless connection information includes data indicating the encryption key of.

The control information is information necessary for controlling the operation of the user terminal 3. For example, it is a timeout time until an error occurs in communication by wireless LAN, a number of retries when an error occurs, a threshold value for battery check, and the like. The threshold value is an arbitrary value set to prohibit the use of the user terminal 3 because the battery may run out during shopping if the remaining battery level of the user terminal 3 is equal to or less than the threshold value. ..

FIG. 3 is a block diagram showing a main circuit configuration of the user terminal 3. As shown in FIG. 3, the user terminal 3 includes a processor 31, a built-in memory 32, an external memory 33, a touch panel 34, a camera 35, a wireless unit 36, a communication interface (I / F) 37, and a system transmission line 38. Further, the user terminal 3 is equipped with a rechargeable battery 39 as a drive source.

The system transmission line 38 includes an address bus, a data bus, a control signal line, and the like. The user terminal 3 connects the processor 31, the built-in memory 32, the external memory 33, the touch panel 34, the camera 35, the wireless unit 36, and the communication interface 37 to the system transmission path 38. In the user terminal 3, a computer is composed of a processor 31, a built-in memory 32, an external memory 33, and a system transmission line 38 connecting them.

The processor 31 corresponds to the central part of the computer. The processor 31 controls each part in order to realize various functions as the user terminal 3 according to the operating system or the application program. The processor 31 is, for example, a CPU (Central Processing Unit).

The built-in memory 32 corresponds to the main storage portion of the computer. The built-in memory 32 includes a non-volatile memory area and a volatile memory area. The built-in memory 32 stores an operating system or an application program in a non-volatile memory area. The built-in memory 32 stores data necessary for the processor 31 to execute a process for controlling each part in a volatile memory area. Further, the built-in memory 32 uses the volatile memory area as a work area where data is appropriately rewritten by the processor 31. The non-volatile memory area is, for example, a ROM (Read Only Memory). The volatile memory area is, for example, RAM (Random Access Memory).

The external memory 33 corresponds to the auxiliary storage portion of the computer. For example, an SD memory card, a USB memory, or the like can be the external memory 33. The external memory 33 stores data used by the processor 31 for performing various processes, data created by the processes of the processor 31, and the like. The external memory 33 may store the above application program.

The touch panel 34 is a device having both an input device and a display device of the user terminal 3. The touch panel 34 detects the touch position with respect to the displayed image and outputs the touch position information to the processor 31.

The camera 35 is an image pickup device built in the user terminal 3. The camera 35 operates as a shooting device for still images or moving images, or as a scanning device for data codes such as barcodes and two-dimensional codes, according to an application program installed in the user terminal 3. The camera 35 is an example of a code reader.

The wireless unit 36 is a circuit for performing data communication with the access point 25 according to the communication protocol of the wireless LAN.

The communication interface 37 is a circuit for performing data communication with an external device connected via the Internet or a mobile communication network.

The user terminal 3 having such a configuration stores a shopping support program used when shopping at a store in which the product sales processing system 1 is introduced, as an application program stored in the built-in memory 32 or the external memory 33. .. The method of installing the shopping support program in the internal memory 32 or the external memory 33 is not particularly limited. The shopping support program can be installed in the internal memory 32 or the external memory 33 by recording the control program on a removable recording medium or distributing the control program by communication via a network. The recording medium may be in any form as long as it can store a program such as an SD memory card or a USB memory and the device can read it.

The user terminal 3 stores the terminal ID in the non-volatile memory area of the built-in memory 32. The terminal ID is terminal identification data set for each user terminal 3 in order to individually identify each user terminal 3. Further, the user terminal 3 uses a part of the volatile memory area in the built-in memory 32 as the area 321 of the store setting information 50. The store setting information 50 obtained by analyzing the image of the data code taken by the camera 35 is selectively stored in the area 321.

The user terminal 3 uses a part of the memory area in the external memory 33 as the management table 331. The management table 331 is a data table for managing whether or not the identification information associated with the consumer can be used in the store where the self-registration of the purchased product is possible on the consumer's personally owned user terminal 3. be. The identification information includes, for example, credit card identification information, membership card identification information, electronic receipt user identification information, and the like.

FIG. 4 is a schematic diagram showing the configuration of the management table 331. As shown in FIG. 4, the management table 331 is composed of a first field F1 of a type, a second field F2 of identification information, and a third field F3 of a setting flag. A plurality of third fields F3 are provided for each code An (n is 1, 2, 3, ...). FIG. 4 illustrates a management table 331 provided with six third fields F3 of codes A1 to A6.

The code An is a code that combines a company code and a store code. For example, when the company code is "001" and the store code is "0001", the code An is "001001". Alternatively, the code An may be "0001001". Hereinafter, the code An is referred to as a combination code An.

The data stored in the first field F1 is "C", "P" or "R" in this embodiment. The data "C" represents a credit card. The data "P" represents a point card. The data "R" represents an electronic receipt user.

The data stored in the second field F2 is determined by the data stored in the corresponding first field F1. Specifically, when the data stored in the first field F1 is "C", the credit card identification information is stored in the corresponding second field F2. The credit card identification information may be a card number or a linkage ID set when linking credit cards.

Credit cards include credit cards issued by credit companies, bank cards issued by banks, distribution cards issued by distribution businesses such as supermarkets and convenience stores, and the like. Whether or not each card can be used is determined by the store. The communication server 23 of the store that allows credit card payment is connected to the server of the credit card issuing company or the management company via the network 4.

When the data stored in the first field F1 is "P", the identification information of the membership card is stored in the second field F2 corresponding to the data. The identification information of the membership card is, for example, a card number.

A membership card is a card issued to a consumer who has become a member in order to receive services provided by a store. Services include point services and discount services. The membership card can be used at the issuing store or other stores belonging to the business entity that operates the store. Alternatively, the membership card can be used at stores affiliated with the company that operates the service.

When the data stored in the first field F1 is "R", the identification information of the electronic receipt user is stored in the corresponding second field F2. The identification information of the electronic receipt user is an electronic receipt ID for identifying the communication terminal of the consumer who downloaded the application program of the electronic receipt service. Hereinafter, the application program of the electronic receipt service is referred to as an electronic receipt application.

Consumers who want to receive receipts as electronic receipts download the electronic receipt application to a communication terminal such as a smartphone. Then, a new electronic receipt ID is set for the communication terminal. When shopping at a store that provides an electronic receipt service, the consumer can receive the receipt as an electronic receipt by presenting the electronic receipt ID to the store. The communication server 23 of the store that provides the electronic receipt service is connected to the server of the electronic receipt service operating company, that is, the so-called electronic receipt server, via the network 4. The communication server 23 adds the electronic receipt ID to the receipt data of the transaction presented by the electronic receipt ID and transmits the electronic receipt ID to the electronic receipt server. By operating the communication terminal to access the electronic receipt server via the Internet and notifying the electronic receipt ID, the consumer can view the receipt data to which the electronic receipt ID is attached on the communication terminal.

The consumer who owns the credit card performs an operation for setting the identification information of the credit card in the management table 331. By this operation, the identification information of the credit card is set in the first field F1 and the second field F2 of the management table 331 together with the type "R". Then, in the third field F3, the setting flag corresponding to the combination code An of the store code and the company code of the store where the credit card can be used becomes "1" indicating validity, and the setting corresponding to the other combination code An. The flag becomes "0" indicating invalidity.

The consumer who owns the membership card performs an operation for setting the identification information of the membership card in the management table 331. By this operation, the identification information of the membership card is set in the first field F1 and the second field F2 of the management table 331 together with the type "P". Then, in the third field F3, the setting flag corresponding to the combination code An of the store code and the company code of the store where the membership card can be used becomes "1", and the setting flag corresponding to the other combination code An becomes "1". It becomes 0 ".

The consumer who has acquired the electronic receipt ID performs an operation for setting the electronic receipt ID in the management table 331. By this operation, the electronic receipt ID is set in the first field F1 and the second field F2 of the management table 331 together with the type "R". In the third field F3, the setting flag corresponding to the combination code An of the store code and the company code of the store providing the electronic receipt service is "1", and the setting flag corresponding to the other combination code An is "0". ".

The operation for setting various identification information in the management table 331 is not particularly limited. The consumer may operate the user terminal 3 to set it, or may operate the personal computer or the like to which the user terminal 3 is connected to set it. As for the setting flag, for example, the store server 21 refers to the data in the management table 331 from the user terminal 3 wirelessly connected via the access point 25. Then, the store server 21 sets the setting flag corresponding to the identification information that can be used in the store among the setting flags belonging to the combination code An of the store ID and the company ID of the store in which the store server 21 is installed. The setting flag corresponding to the unusable identification information is set to "0". By doing so, the management table 331 as shown in FIG. 4 is created in the external memory 33 of the user terminal 3.

FIG. 5 is a block diagram showing a main circuit configuration of the store server 21. The store server 21 includes a processor 211, a main memory 212, an auxiliary storage device 213, a communication interface 214, and a system transmission line 215. The system transmission line 215 includes an address bus, a data bus, a control signal line, and the like. The store server 21 connects the processor 211, the main memory 212, the auxiliary storage device 213, and the communication interface 214 to the system transmission line 215. In the store server 21, a computer is composed of a processor 211, a main memory 212, an auxiliary storage device 213, and a system transmission line 215 connecting them.

The processor 211 corresponds to the central part of the computer. The processor 211 controls each part in order to realize various functions as the store server 21 according to the operating system or the application program. The processor 211 is, for example, a CPU.

The main memory 212 corresponds to the main memory portion of the computer. The main memory 212 includes a non-volatile memory area and a volatile memory area. The main memory 212 stores an operating system or an application program in a non-volatile memory area. The main memory 212 may store data necessary for the processor 211 to execute a process for controlling each part in a non-volatile or volatile memory area. The main memory 212 uses the volatile memory area as a work area where data is appropriately rewritten by the processor 211. The non-volatile memory area is, for example, a ROM. The volatile memory area is, for example, RAM.

The auxiliary storage device 213 corresponds to the auxiliary storage portion of the computer. For example, an EEPROM (Electric Erasable Programmable Read-Only Memory), an HDD (Hard Disc Drive), an SSD (Solid State Drive), or the like can be an auxiliary storage device 213. The auxiliary storage device 213 stores data used by the processor 211 for performing various processes, data created by the processes of the processor 211, and the like. The auxiliary storage device 213 may store the above application program.

The application program stored in the main memory 212 or the auxiliary storage device 213 includes a control program described for information processing executed by the store server 21. The method of installing the control program in the main memory 212 or the auxiliary storage device 213 is not particularly limited. The control program can be recorded on a removable recording medium, or the control program can be distributed by communication via a network and installed in the main memory 212 or the auxiliary storage device 213. The recording medium may be in any form as long as it can store a program such as a CD-ROM or a memory card and the apparatus can read it.

The communication interface 214 connects the wired LAN 26. The communication interface 214 transmits / receives data to / from the virtual POS server 22, the communication server 23, the accounting machine 24, and the access point 25 through the wired LAN 26.

The processor 211 of the store server 21 can send and receive data to and from the user terminal 3 wirelessly connected to the access point 25 through the communication interface 214. Here, the communication interface 214 functions as a communication means for connecting to the user terminal 3 owned by the consumer by using wireless communication.

The store server 21 having such a configuration stores the store code of the store that manages the store server 21 and the company code of the business entity that operates the store in the non-volatile memory area of the main memory 212.

Further, the store server 21 stores the product master file 61 in the auxiliary storage device 213. The product master file 61 is a collection of product records that describe data of products sold in a store. Product data such as a product code, price, and product name are described in the product record. The product code is product identification data set for each product in order to individually identify the product. Each product is usually accompanied by a barcode indicating the product code.

FIG. 6 is a block diagram showing a main circuit configuration of the virtual POS server 22. The virtual POS server 22 includes a processor 221, a main memory 222, an auxiliary storage device 223, a communication interface 224, and a system transmission line 225. The system transmission line 225 includes an address bus, a data bus, a control signal line, and the like. The virtual POS server 22 connects the processor 221, the main memory 222, the auxiliary storage device 223, and the communication interface 224 to the system transmission line 225. In the virtual POS server 22, a computer is composed of a processor 221, a main memory 222, an auxiliary storage device 223, and a system transmission line 225 connecting them.

The processor 221 corresponds to the central part of the computer. The processor 221 controls each part in order to realize various functions as a virtual POS server 22 according to an operating system or an application program. The processor 221 is, for example, a CPU.

The main memory 222 corresponds to the main storage portion of the computer. The main memory 222 includes a non-volatile memory area and a volatile memory area. The main memory 222 stores an operating system or an application program in a non-volatile memory area. The main memory 222 may store data necessary for the processor 221 to execute a process for controlling each part in a non-volatile or volatile memory area. The main memory 222 uses a volatile memory area as a work area in which data is appropriately rewritten by the processor 221. The non-volatile memory area is, for example, a ROM. The volatile memory area is, for example, RAM.

The auxiliary storage device 223 corresponds to the auxiliary storage portion of the computer. For example, EEPROM, HDD, SSD, etc. can be the auxiliary storage device 223. The auxiliary storage device 223 stores data used by the processor 221 for performing various processes, data created by the processes of the processor 221 and the like. The auxiliary storage device 223 may store the above application program.

The application program stored in the main memory 222 or the auxiliary storage device 223 includes a control program described for information processing executed by the virtual POS server 22. The method of installing the control program in the main memory 222 or the auxiliary storage device 223 is not particularly limited. The control program can be recorded on a removable recording medium, or the control program can be distributed by communication via a network and installed in the main memory 222 or the auxiliary storage device 223. The recording medium may be in any form as long as it can store a program such as a CD-ROM or a memory card and the apparatus can read it.

The communication interface 224 connects the wired LAN 26. The communication interface 224 transmits / receives data to / from the store server 21, the communication server 23, the accounting machine 24, and the access point 25 through the wired LAN 26.

The processor 221 of the virtual POS server 22 can send and receive data to and from the user terminal 3 wirelessly connected to the access point 25 through the communication interface 224. Here, the communication interface 224 functions as a communication means for connecting to the user terminal 3 owned by the consumer by using wireless communication.

The virtual POS server 22 having such a configuration uses a part of the volatile memory area in the main memory 222 as the creation area of the registration table 70. The registration table 70 is created for each user terminal 3 connected via the communication means. The registration table 70 is a data table for accumulating sales data and the like of products self-registered by the user terminal 3.

Further, the virtual POS server 22 stores the product file 62 in the auxiliary storage device 223. At least the product name and the unit price of the product record stored in the product master file 61 are copied to the product file 62. Then, every time the unit price of the product record stored in the product master file 61 is changed, for example, the product record stored in the product file 62 is also updated in real time. Since the method of updating the product record stored in the product master file 61 is well known, the description thereof is omitted here.

Here, the product file 62 constitutes a storage unit that stores the product data including the name and price of the product identified by the product identification data in association with the product identification data. Further, the product master file 61 constitutes a master storage unit that stores at least the product data stored in the product file 62.

7 to 9 are flow charts showing a main procedure of information processing executed by the processor 31 of the user terminal 3 based on the shopping support program. 10 and 13 are flow charts showing a main procedure of information processing executed by the processor 211 of the store server 21 based on the control program stored in the main memory 212 or the auxiliary storage device 213. 11 and 12 are flow charts showing a main procedure of information processing executed by the processor 221 of the virtual POS server 22 based on the control program stored in the main memory 222 or the auxiliary storage device 223. 14 to 22 are schematic views showing an example of various screens displayed on the touch panel 34 of the user terminal 3. Hereinafter, the main operation of the product sales processing system 1 including the product sales processing device 2 and the user terminal 3 will be described with reference to these figures. From this operation explanation, the product sales processing method of the product sales processing device 2 will be clarified. The content of the operation described below is an example. As long as similar results can be obtained, the operation procedure and the content of the operation are not particularly limited.

When the consumer goes to the store where the product sales processing system 1 is introduced, the consumer activates the shopping support program installed in the user terminal 3 before starting the shopping. Then, the processor 31 starts information processing of the procedure shown in the flow chart shown in FIGS. 7 to 9.

First, the processor 31 controls the touch panel 34 so that the check-in screen SC1 (see FIG. 14) is displayed as the ACT 101.

FIG. 14 is an example of the check-in screen SC1. As shown in FIG. 14, the check-in screen SC1 has a message instructing to scan the two-dimensional code for entering the store, and a "Yes" button BT1 for instructing the consumer to confirm the message. The image is displayed. The consumer who confirms the check-in screen SC1 touches the "Yes" button BT1.

When the processor 31 detects that the "Yes" button BT1 on the check-in screen SC1 is touched by the signal from the touch panel 34, the processor 31 activates the camera 35 as the ACT 102. Then, the processor 31 controls the touch panel 34 so that the camera screen SC2 (see FIG. 15) is displayed as the ACT 103.

FIG. 15 is an example of the camera screen SC2. As shown in FIG. 15, an image AR1 showing a reading area of a two-dimensional code is displayed on the camera screen SC2. The consumer who confirmed the camera screen SC2 holds the lens of the camera 35 built in the user terminal 3 over the data code 5 so that the data code 5 prepared at the entrance of the store fits in the image AR1.

The processor 31 displaying the camera screen SC2 waits for the camera 35 to read the data code of the two-dimensional code system as the ACT 104. As shown in FIG. 16, when the data code of the two-dimensional code system fits in the image AR1, the processor 31 determines that the data code has been read. The processor 31 determines YES in the ACT 104, and proceeds to the ACT 105.

The processor 31 analyzes the data encoded by the data code from the image of the data code captured by the camera 35 as the ACT 105. Then, the processor 31 determines whether or not the data code read as the ACT 106 is the data code 5 whose store entry flag is “1”.

If the data code read by the camera 35 is other than the data code 5, the processor 31 determines NO in the ACT 106 and returns to the ACT 104. The processor 31 waits for the camera 35 to read the data code of the two-dimensional code system again.

If the data code read by the camera 35 is the data code 5 with the store entry flag set to "1", the processor 31 determines YES in the ACT 106 and proceeds to the ACT 107. The processor 41 stores the store setting information 50 including the store entry flag, the company code, the store code, the wireless connection information, and the control information obtained by analyzing the data code 5 as the ACT 107 in the area 321 of the built-in memory 32.

The processor 31 controls the touch panel 34 so that the wireless connection screen SC4 (see FIG. 17) is displayed as the ACT 108.

FIG. 17 is an example of the wireless connection screen SC4. As shown in FIG. 17, on the wireless connection screen SC4, a message indicating that the user terminal 3 is connected to the wireless in the store and that shopping is possible when the connection is completed is displayed. Therefore, the shopper waits for the user terminal 3 to be connected to the radio in the store.

The processor 41 controls the wireless unit 36 based on the wireless connection information of the store setting information 50 stored in the area 321 as the ACT 109, and waits for the user terminal 3 to be connected to the wireless in the store. Here, if the wireless connection in the store is not connected even after the time corresponding to the time-out time included in the control information of the store setting information 50 has elapsed, the processor 31 repeats retries as many times as the number of retries included in the control information. If the wireless connection in the store cannot be connected even after repeated retries, the processor 31 determines NO in the ACT 109 and makes a communication error. The processor 31, for example, waits for a certain period of time, and then re-executes the processing for connection.

As shown in FIG. 10, the processor 211 of the store server 21 is waiting for the user terminal 3 to be connected as the ACT 201. When the user terminal 3 is wirelessly connected to the store server 21 via the access point 25, the processor 211 determines YES in the ACT 201 and proceeds to the ACT 202. The processor 211 controls the communication interface 214 as the ACT 202 so as to transmit a command requesting a company code and a store code to the user terminal 3. By this control, the code request command is transmitted from the communication interface 214 to the user terminal 3. The code request command is wirelessly transmitted from the access point 25 and received by the wireless unit 36 of the user terminal 3.

In the ACT 109 of FIG. 7, the processor 31 of the user terminal 3 determines YES when connected to the radio in the store, and proceeds to the ACT 110. The processor 31 controls the wireless unit 36 so as to wirelessly transmit the company code and the store code included in the store setting information 50 in response to the code request command from the store server 21 as the ACT 110. By this control, the data of the company code and the store code is wirelessly transmitted from the wireless unit 36, and this data is received by the store server 21 via the access point 25.

In the ACT 202 of FIG. 10, the processor 211 of the store server 21 that controls the transmission of the code request command waits for the data of the company code and the store code as the ACT 203. Upon receiving the data of the company code and the store code via the communication interface 214, the processor 211 determines YES in the ACT 203 and proceeds to the ACT 204. The processor 211 collates the store code and the product code received as the ACT 204 with the store code and the company code stored in the main memory 212. Then, the processor 211 determines whether or not the store code and the company code match as the ACT 205.

As a result of the collation, if at least one of the store code and the company code does not match, the processor 211 determines NO in the ACT 205 and proceeds to the ACT 206. The processor 211 controls the communication interface 214 so as to send a negative response command to the user terminal 3 as an ACT 206. By this control, a negative response command is transmitted from the communication interface 214 to the user terminal 3. The negative response command is wirelessly transmitted from the access point 25 and received by the wireless unit 36 of the user terminal 3. The processor 211 that controls the transmission of the negative response command ends the information processing of the procedure shown in the flow chart of FIG.

On the other hand, if both the store code and the company code match as a result of the collation, the processor 211 determines YES in the ACT 205 and proceeds to the ACT 207. The processor 211 controls the communication interface 214 so as to transmit the permission response command to the user terminal 3 as the ACT 207. By this control, the permission response command is transmitted from the communication interface 214 to the user terminal 3. The permission response command is wirelessly transmitted from the access point 25 and received by the wireless unit 36 of the user terminal 3.

The processor 211 that controls the transmission of the permission response command performs the update process of the management table 331 possessed by the user terminal 3 as the ACT 208. Specifically, the processor 211 confirms whether or not the third field F3 in which the combination code An of the company code and the store code possessed by the store server 21 exists in the management table 331. If it does not exist, the third field F3 in which the combination code An is set is added to the management table 331. Then, the setting flag is set in the third field F3. That is, the setting flag whose type is "C" in the first field is set to "1" when the credit card specified by the identification information in the second field can be used at the store, and when it cannot be used, it is set to "1". Is set to "0". Regarding the setting flag in which the type of the first field is "P", if the membership card specified by the identification information in the second field can be used at the store, it is set to "1", and if it cannot be used, it is set to "1". It is set to 0 ". Regarding the setting flag in which the type of the third field is "R", it is set to "1" when the store is implementing the electronic receipt service, and is set to "0" when it is not.

On the other hand, when the third field F3 in which the combination code An of the company code and the store code of the store server 21 is set already exists, the processor 211 sets the setting flag of the third field F3 in the same manner as described above. Scrutinize to.

In this way, when the update of the management table 331 is completed, the processor 211 controls the communication interface 214 so as to send a command requesting the terminal ID to the user terminal 3 as the ACT 209. By this control, the ID request command is transmitted from the communication interface 214 to the user terminal 3. The ID request command is wirelessly transmitted from the access point 25 and received by the wireless unit 36 of the user terminal 3.

In the ACT 110 of FIG. 7, the processor 31 of the user terminal 3 that controls the transmission of the company code and the store code waits for the license response command to be received as the ACT 111. When a negative response command is received in this standby state, the processor 31 determines NO in the ACT 111 and terminates this process as an error.

On the other hand, when the permission response command is received, the processor 31 determines YES in the ACT 111 and proceeds to the ACT 112. The processor 31 controls the wireless unit 36 so as to wirelessly transmit the terminal ID stored in the built-in memory 32 in response to the ID request command from the store server 21. By this control, the terminal ID is wirelessly transmitted from the wireless unit 36, and the terminal ID is received by the store server 21 via the access point 25. Further, the processor 31 controls the touch panel 44 so that the check-in completion screen SC5 (see FIG. 18) is displayed as the ACT 113.

FIG. 18 is an example of the check-in completion screen SC5. As shown in FIG. 18, the check-in completion screen SC5 displays an image of the “Yes” button BT2 together with a message indicating that shopping is ready. The consumer who confirmed the check-in completion screen SC5 touches the "Yes" button BT2.

In the ACT 209 of FIG. 10, the processor 211 of the store server 21 that controls the transmission of the ID request command is waiting for the terminal ID to be received from the user terminal 3 as the ACT 210. Upon receiving the terminal ID via the communication interface 214, the processor 211 controls the communication interface 214 so as to notify the terminal ID to the virtual POS server 22. By this control, the terminal ID is transmitted from the communication interface 214 to the virtual POS server 22. The terminal ID is received by the communication interface 224 of the virtual POS server 22. The processor 211 of the store server 21, which is controlled to notify the virtual POS server 22 of the terminal ID, ends the information processing of the procedure shown in the flow chart of FIG.

As shown in FIG. 11, the processor 221 of the virtual POS server 22 waits for the notification of the terminal ID as the ACT 301. Upon receiving the terminal ID notified from the store server 21 via the communication interface 224, the processor 221 determines YES in the ACT 301 and proceeds to the ACT 302. The processor 221 acquires the terminal ID notified from the store server 21 as the ACT 302. Then, the processor 221 creates a registration table 70 in which the terminal ID is associated with the main memory 222.

Further, the processor 221 wirelessly connects to the user terminal 3 whose terminal ID is set as the ACT 304 via the access point 25. When wirelessly connected to the user terminal 3, the processor 221 waits for reception from the user terminal 3 as an ACT 305.

In the ACT 113 of FIG. 7, the processor 31 of the user terminal 3 that controls the display of the check-in completion screen SC5 waits for the instruction to start shopping as the ACT 121 of FIG. When it is detected that the "Yes" button BT2 on the check-in completion screen SC5 is touched by the signal from the touch panel 34, the processor 31 determines that the shopping start is instructed. The processor 31 determines YES in the ACT 121, and proceeds to the ACT 122. The processor 31 searches the management table 331 with the company code and the store code of the store setting information 50 described in the area 321 as the ACT 122. Then, the processor 31 determines whether or not the setting flag set to "1" exists in the third field F3 to which the combination code An of the company code and the store code is assigned as the ACT 123.

If at least one setting flag set to "1" is present in the third field F3, the processor 31 determines YES in the ACT 123 and proceeds to the ACT 124. The processor 31 controls the wireless unit 36 so as to wirelessly transmit the types and identification information described in the first field F1 and the second field F2, respectively, in response to the setting flag set to "1" as the ACT 124. do. By this control, the data of the type and the identification information is wirelessly transmitted from the wireless unit 36, and this data is received by the virtual POS server 22 via the access point 25.

In the ACT 124, the processor 31 that controls the wireless transmission of the type and the identification information proceeds to the ACT 125. On the other hand, if there is no setting flag set to "1" in the third field F3, the processor 31 determines NO in the ACT 123, skips the processing of the ACT 124, and proceeds to the ACT 125. The processor 31 controls the touch panel 34 so that the registration screen SC6 (see FIG. 19) is displayed as the ACT 125.

FIG. 19 is an example of the registration screen SC6. As shown in FIG. 19, the registration screen SC6 is formed with an area for displaying the product name and price of the purchased product and the purchased price. In addition, an image of the accounting button BT3 for instructing accounting is displayed. When a consumer picks up a purchased product and stores it in a container such as a shopping cart or a shopping cart, the consumer holds the lens of the camera 35 on the barcode attached to the purchased product. Then, the bar code is scanned by the camera 35. The barcode includes the product code of the purchased product.

In the ACT 305 of FIG. 11, the processor 221 of the virtual POS server 22 determines YES when the data wirelessly transmitted from the user terminal 3 is received by the communication interface 224, and proceeds to the ACT 306. The processor 221 confirms whether or not the received data is the type and identification information data as the ACT 306. When the received data is the data of the type and the identification information, the processor 221 determines YES in the ACT 306 and proceeds to the ACT 307. The processor 221 stores the data of the type and the identification information as the ACT 307 in the registration table 70 associated with the terminal ID of the user terminal 3. After that, the processor 221 returns to the ACT 305 and waits for the next data to be received from the user terminal 3.

The processor 31 of the user terminal 3 that controls the display of the registration screen SC6 in the ACT 125 of FIG. 8 confirms whether or not the product code has been input as the ACT 126. If the product code is not input, the processor 31 determines NO in the ACT 126 and proceeds to the ACT 129. The processor 31 confirms whether or not the accounting button BT3 is touched as ACT129. If the accounting button BT3 is not touched, the processor 31 determines NO in ACT129 and returns to ACT126. Here, the processor 31 waits for the product code to be input or the accounting button BT3 to be input in the ACT 126 and the ACT 129.

In the standby state of the ACT 126 and the ACT 129, when the barcode is scanned by the camera 35 and the product code is input from the barcode data, the processor 31 determines YES in the ACT 126 and proceeds to the ACT 127. The processor 31 controls the wireless unit 36 so as to wirelessly transmit the product code as the ACT 127. By this control, the product code is wirelessly transmitted from the wireless unit 36, and the product code is received by the virtual POS server 22 via the access point 25.

In the reception waiting state of the ACT 305 of FIG. 11, the processor 221 of the virtual POS server 22 that received the data from the user terminal 3 and confirmed that the received data is not the data of the type and the identification information determines NO in the ACT 306. And proceed to ACT308. The processor 221 confirms whether or not the received data is a product code as the ACT 308. When the received data is a product code, the processor 221 determines YES in the ACT 308 and proceeds to the ACT 309. The processor 221 searches the product file 62 with the product code as the ACT 309, and acquires product data such as a product name and a price stored in association with the product code. When the product data is acquired, the processor 221 generates sales data of the product identified by the product code as the ACT 310 based on the product data, and the registration table 70 associated with the terminal ID of the user terminal 3 is used. Register the sales data in. Further, the processor 221 controls the communication interface 224 as the ACT 311 so as to transmit the data indicating the registration contents of the registration table 70 including the sales data to the user terminal 3. By this control, the data indicating the registered contents is transmitted from the communication interface 224, and the data indicating the registered contents is wirelessly transmitted from the access point 25 and received by the user terminal 3. The processor 221 that controls the transmission of the data indicating the registered contents returns to the ACT 305 and waits for the next data to be received.

The processor 31 of the user terminal 3 that controls the transmission of the product code in the ACT 127 of FIG. 8 updates the registration screen SC6 based on the data indicating the registration contents received from the virtual POS server 22 as the ACT 128.

FIG. 20 is an example of the updated registration screen SC6. FIG. 20 shows the registration screen SC6 after inputting the product code of the product NN having a unit price of 189 yen as the first purchased product. The name and unit price of the product NN are displayed on the registration screen SC6. In addition, the purchase price of 189 yen is also displayed.

The processor 31 that has updated the registration screen SC6 proceeds to ACT129. That is, the processor 31 is in the standby state of the ACT 126 and the ACT 129.

When the consumer finishes shopping, he / she touches the checkout button BT3 on the registration screen SC6.
When the processor 31 detects that the accounting button BT3 is touched by the signal from the touch panel 34, the processor 31 determines YES in the ACT 129, and proceeds to the ACT 131 of FIG. The processor 31 controls the touch panel 34 to display the payment selection screen SC7 (see FIG. 21) as the ACT 131.

FIG. 21 is an example of the payment selection screen SC7. As shown in FIG. 21, the payment selection screen SC7 displays images of buttons BT4 and BT5 for selecting a payment method together with the total purchase points and the total purchase amount. The button BT4 is a button for selecting accounting machine payment as a payment method. The button BT5 is a button for selecting mobile payment as a payment method.

The accounting machine settlement is a method of paying the price of the purchased product by cash, credit card, electronic money, or the like using the accounting machine 24. Mobile payment is a method of electronically paying the price of a purchased product using a user terminal 3 and using a barcode or a two-dimensional code. Mobile payment is also referred to as code payment or smartphone payment.

The consumer who confirms the payment selection screen SC7 decides whether to use the accounting machine payment or the mobile payment. Then, the consumer touches the button BT4 when using the accounting machine payment. The consumer touches the button BT5 when using mobile payment.

In the ACT 131, the processor 31 that controls the display of the payment selection screen SC7 confirms whether or not the accounting machine settlement is selected as the ACT 132. If the accounting machine settlement is not selected, the processor 31 determines NO in the ACT 132 and proceeds to the ACT 133. The processor 31 confirms whether or not mobile payment has been selected as the ACT 133. If mobile payment is not selected, the processor 31 determines NO in ACT 133 and returns to ACT 132. Here, the processor 31 waits for the accounting machine payment or the mobile payment to be selected in the ACT 132 and the ACT 133.

When the processor 31 detects that the button BT4 of the payment selection screen SC7 is touched by the signal from the touch panel 34, it determines that the accounting machine settlement has been selected. The processor 31 determines YES in the ACT 132, and proceeds to the ACT 134. The processor 31 controls the wireless unit 36 to notify the accounting machine settlement as the ACT 134. By this control, data for notifying the accounting machine settlement is wirelessly transmitted from the wireless unit 36, and this data is received by the virtual POS server 22 via the access point 25.

In the reception waiting state of the ACT 305 of FIG. 11, the processor 221 of the virtual POS server 22 that has received the data from the user terminal 3 and confirmed that the received data is neither the type and the identification information data nor the product code is The determination is NO in ACT308, and the process proceeds to ACT321 in FIG. The processor 221 confirms whether or not the received data as the ACT 321 is the data for notifying the accounting machine settlement. When the received data is the data notifying the accounting machine settlement, the processor 221 determines YES in the ACT 321 and proceeds to the ACT 322. Processor 221 generates an accounting code as ACT322. The accounting code is a unique code generated to identify the registration table 70 associated with the terminal ID of the user terminal 3.

The processor 221 stores the accounting code as the ACT 323 in the registration table 70 associated with the terminal ID of the user terminal 3. Further, the processor 221 controls the communication interface 224 so as to transmit the accounting code to the user terminal 3 as the ACT 324. By this control, the accounting code is transmitted from the communication interface 224, the accounting code is wirelessly transmitted from the access point 25, and is received by the user terminal 3. The processor 221 that controls the transmission of the accounting code transfers the data of the registration table 70 storing the accounting code as the ACT 325 to the store server 21. With the above, the processor 221 ends the information processing of the procedure shown in the flow charts of FIGS. 11 and 12.

The processor 31 of the user terminal 3 that controls the notification of the accounting machine settlement in the ACT 134 of FIG. 9 displays the accounting barcode screen SC8 (see FIG. 22) based on the accounting code received from the virtual POS server 22 as the ACT 135. Controls the touch panel 44.

FIG. 22 is an example of the accounting barcode screen SC8. As shown in FIG. 22, on the accounting barcode screen SC8, a message prompting the accounting machine 24 to scan the accounting barcode BC1 together with the accounting barcode BC1 in which the accounting code is represented by the barcode is displayed. In addition, the accounting barcode screen SC8 displays an image of the "Yes" button BT6 for instructing the consumer to confirm the message and a "Back" button BT7 for instructing the consumer to return to shopping. There is.

The consumer who confirms the accounting barcode screen SC8 touches the "Yes" button BT6. Then, go to the place where the accounting machine 24 is installed, and have the scanner of the vacant accounting machine 24 read the accounting barcode BC1. The accounting machine 24 that has read the accounting barcode BC1 makes an inquiry to the store server 21 with the accounting code represented by the accounting barcode BC1.

Returning to the description of FIG.
When the processor 31 of the user terminal 3 detects that the button BT5 of the payment selection screen SC7 is touched by the signal from the touch panel 34, it determines that the mobile payment has been selected. The processor 31 determines YES in the ACT 133, and proceeds to the ACT 136. The processor 31 controls the wireless unit 36 to notify the mobile payment as ACT 136. By this control, data for notifying the mobile payment is wirelessly transmitted from the wireless unit 36, and this data is received by the virtual POS server 22 via the access point 25.

In the reception waiting state of the ACT 305 of FIG. 11, the data received from the user terminal 3 is received, and the received data is not F, is not a product code, and is not data for notifying the accounting machine settlement. The processor 221 of the virtual POS server 22 that has confirmed this is determined to be NO in the ACT 321 of FIG. 12, and proceeds to the ACT 326. The processor 221 confirms whether or not the received data is the data for notifying the mobile payment as the ACT 326. If the received data is not the data for notifying the mobile payment, the processor 221 determines NO in the ACT 326, performs processing according to the received data, and then returns to the reception waiting state of the ACT 305.

If the received data is data notifying the mobile payment, the processor 221 determines YES in the ACT 326 and proceeds to the ACT 327. Processor 221 confirms whether or not to approve the mobile payment as ACT327. For example, some stores approve mobile payments and others do not. Alternatively, even a store that normally approves mobile payment may temporarily not approve mobile payment for some reason. If the mobile payment at the store is not approved, the processor 221 determines NO in the ACT 327 and proceeds to the ACT 328. The processor 221 controls the communication interface 224 as an ACT 328 to transmit a negative response to the user terminal 3. By this control, negative response data is transmitted from the communication interface 224, and this data is wirelessly transmitted from the access point 25 and received by the user terminal 3. The processor 221 that controls the transmission of the negative response returns to the reception waiting state of the ACT 305.

On the other hand, if the mobile payment at the store is approved, the processor 221 determines YES in the ACT 327 and proceeds to the ACT 329. The processor 221 controls the communication interface 224 as an ACT 329 so as to transmit a permission response to the user terminal 3. By this control, the permission response data is transmitted from the communication interface 224, and this data is wirelessly transmitted from the access point 25 and received by the user terminal 3. With the above, the processor 221 ends the information processing of the procedure shown in the flow charts of FIGS. 11 and 12.

In ACT 136 of FIG. 9, the processor 31 of the user terminal 3 that has notified the mobile payment confirms whether or not the permission response has been received as ACT 137. If a negative response is received instead of a grant response, the processor 31 determines NO in the ACT 137 and returns to the ACT 132. At this time, a pop-up message indicating that mobile payment cannot be used is displayed on the payment selection screen SC7. The processor 31 waits for the accounting machine settlement to be selected.

When the processor 31 receives the permission response in the ACT 137, the processor 31 determines YES and proceeds to the ACT 138. The processor 31 executes the mobile payment process as ACT138. Since this mobile payment process is a well-known process, the description here will be omitted.

When the processor 31 executes the mobile payment process in the ACT 138 or controls the display of the accounting barcode screen SC8 in the ACT 135, the processor 31 waits for the payment to be completed as the ACT 139. Then, when the settlement is completed, the processor 31 determines YES in the ACT 139 and proceeds to the ACT 140. The processor 31 clears the store setting information 50 stored in the area 321 as the ACT 140. With the above, the processor 31 ends the information processing according to the shopping support program.

FIG. 13 is a flow chart showing a main procedure of information processing executed by the processor 211 of the store server 21 that has received the data transfer of the registration table 70 from the virtual POS server 22. That is, the processor 211 is waiting for the data transfer of the registration table 70 as the ACT221. Upon receiving the data in the registration table 70 via the communication interface 214, the processor 211 determines YES in the ACT 221 and proceeds to the ACT 222. The processor 211 stores the data of the registration table 70 in the ACT 222 in the volatile memory area of the main memory 212. Alternatively, the processor 211 stores the data in the registration table 70 in the auxiliary storage device 213.

The data in the registration table 70 stored in the main memory 212 or the auxiliary storage device 213 includes the type and identification information saved by the process of ACT 307 in FIG. The processor 211 confirms whether or not the data in the registration table 70 includes the identification information of the type "P" as the ACT 223. If the identification information of the type "P" is not included, the processor 211 determines NO in the ACT 223, skips the processing of the ACT 224, and proceeds to the ACT 225.

When the identification information of the type "P" is included, the processor 211 determines YES in the ACT 223 and proceeds to the ACT 224. The processor 211 executes the service process based on the identification information as the ACT 224. For example, when the identification information is the identification information related to the membership card of the point service, the points are calculated based on the sales data of each product registered in the registration table 70, and the service given to the consumer is executed. For example, when the identification information is the identification information related to the membership card of the discount service, the service of discounting the purchase amount of the product registered in the registration table 70 is executed. When the processor 211 finishes the service process, it proceeds to ACT225.

The processor 211 waits for an inquiry of the accounting code from the accounting machine 24 as the ACT 225. As described above, when the accounting bar code BC1 is read by the accounting machine 24, an inquiry is made to the store server 21 with the accounting code represented by the accounting bar code. Upon receiving the inquiry of the accounting code, the processor 211 determines YES in the ACT 225 and proceeds to the ACT 226. The processor 211 generates accounting data based on the sales data of the goods registered in the registration table 70 in which the accounting code is stored as ACT226. Then, the processor 211 controls the communication interface 224 so as to output this accounting data to the accounting machine 24 of the inquiry source. By this control, the accounting data is given to the accounting machine 24. The accounting machine 24 that has received the accounting data selects a settlement method. Payment methods include cash payment, credit card payment, electronic money payment, and the like.

The processor 211 of the store server 21 that controls the output of the accounting data confirms whether or not the credit card payment is selected as the ACT 227. If a payment method other than credit card payment is selected, the processor 211 determines NO in ACT227 and proceeds to ACT231. The processing of ACT231 will be described later.

On the other hand, when credit card payment is selected, the processor 211 determines YES in ACT227 and proceeds to ACT228. The processor 221 confirms whether or not credit card payment is possible as ACT228. Specifically, the processor 211 confirms whether or not the identification information of the type "C" is stored in the registration table 70. If the identification information of the type "C" is not stored, the credit card owned by the consumer who performs the accounting cannot be used at the main store. The processor 211 determines NO in ACT228 and proceeds to ACT229. The processor 221 controls the communication interface 224 as an ACT 229 so as to output a negative response to the accounting machine 24. By this control, negative response data is transmitted from the communication interface 224 to the accounting machine 24. At the accounting machine 24 that has received the negative response data, the consumer is notified that credit card payment is not possible.

On the other hand, when the identification information of the type "C" is stored in the registration table 70, the credit card owned by the consumer who performs the accounting can be used in the main store. The processor 211 determines YES in the ACT 228, and proceeds to the ACT 230. The processor 221 controls the communication interface 224 as an ACT 230 so as to output a permission response to the accounting machine 24. By this control, the permission response data is transmitted from the communication interface 224 to the accounting machine 24. Credit card payment is executed in the accounting machine 24 that has received the permission response data.

In the ACT 229 or ACT 230, the processor 211 that controls the output of the negative response or the grant response proceeds to the ACT 231.
The processor 211 waits for the settlement to be completed in the accounting machine 24 as the ACT 231. When the settlement is completed, the processor 211 determines YES in the ACT 231 and proceeds to the ACT 232. The processor 211 confirms whether or not to issue the receipt as an electronic receipt as ACT232. That is, the processor 211 confirms whether or not the identification information of the type "R" exists in the registration table 70.

When the identification information of the type "R" does not exist, it indicates that the payment with the consumer who does not issue the receipt as an electronic receipt has been completed. In this case, the processor 211 determines NO in the ACT232 and ends the information processing of the procedure shown in the flow chart of FIG.

On the other hand, when the identification information of the type "R" exists, the settlement with the consumer who issues the receipt as an electronic receipt is completed, so that the processor 211 determines YES in the ACT 232 and proceeds to the ACT 233. .. The processor 231 executes the electronic receipt processing as the ACT 233. Specifically, the processor 211 executes a process of transmitting, for example, electronic receipt data obtained by converting receipt print data into a structured format to an electronic receipt server together with an electronic receipt ID which is identification information of type "R". .. The process of converting the receipt print data into the structured format may be performed by the store server 21 or the accounting machine 24. Alternatively, a device other than the store server 21 or the accounting machine 24 may perform the operation. When the processor 211 finishes the electronic receipt processing, the processor 211 finishes the information processing of the procedure shown in the flow chart of FIG.

Here, the processor 31, which is the main body of the computer provided in the user terminal 3, constitutes the first input means by executing the processes of ACT 101 to ACT 107 according to the shopping support program. That is, the processor 31 inputs the store identification data of the store code and the company code of the store, wireless connection information, control information, and the like from the data code 5 which is a medium prepared in the store.

The processor 31 constitutes a second input means by executing the processing of the ACT 126 and the ACT 127 according to the shopping support program. That is, the processor 31 inputs the product identification data by scanning the barcode of the product sold in the store with the camera 35.

The processor 211, which is the main body of the computer provided in the store server 21, constitutes the first acquisition means by executing the processes of ACT 201 to ACT 203 according to the control program. That is, the processor 211 acquires the store identification data input to the user terminal 3 from the user terminal 3 connected via the communication interface 14.

The processor 211 constitutes an allowable means by executing the processing of ACT 204 and ACT 205, and further the processing of ACT 207 and ACT 209 according to the control program. That is, when the store identification data acquired from the user terminal 3 by the first acquisition means is valid data, the processor 211 makes the user terminal 3 available.

The processor 221 which is the main body of the computer included in the virtual POS server 22 constitutes the creating means by executing the processes of the ACT 301 to the ACT 303 according to the control program. That is, the processor 221 creates a registration table 70 for each user terminal 3 that has become available by the permissible means.

The processor 221 constitutes a second acquisition means by executing the processes of the ACT 305 and the ACT 308 according to the control program. That is, the processor 221 acquires the product identification data input to the user terminal 3 from the user terminal 3 that has become available by the permissible means.

The processor 221 constitutes a processing means by executing the processing of the ACT 309 and the ACT 310 according to the control program. That is, the processor 221 acquires the product data of the product identified by the product identification data acquired from the user terminal 3 by the second acquisition means from the product file 62, and sells the product based on the product data. Specifically, the processor 221 performs a process of registering the product sales data in the registration table 70 for the user terminal 3 for which the product identification data has been acquired by the second acquisition means.

The processor 221 constitutes a transmission means by executing the processing of the ACT 311 according to the control program. That is, the processor 221 transmits at least the name and the price of the product sold and processed by the processing means to the user terminal 3.

Then, the processor 31, which is the main body of the computer provided in the user terminal 3, constitutes the display means by executing the processing of the ACT 128 according to the shopping support program. That is, the processor 31 displays the name and price of the product received from the product sales processing device 2 on the registration screen SC6.

As described above, in the present embodiment, the store server 21 of the product sales processing device 2 is provided with the first acquisition means and the allowable means, and the virtual POS server 22 is provided with the second acquisition means and the processing means. Then, the product sales processing system 1 is configured by the user terminal 3 provided with the first input means and the second input means and the product sales processing device 2.

According to the product sales processing system 1 having such a configuration, a communication terminal such as a smartphone personally owned by a consumer who has entered the store can be correctly connected to the store server 21 and the virtual POS server 22 of the store, and the communication thereof can be performed. The terminal can be used as a self-registered user terminal 3. Therefore, the consumer can self-register the purchased product by using the personally owned communication terminal as the user terminal 3 in the plurality of stores where the product sales processing system 1 is constructed.

Further, in the present embodiment, the virtual POS server 22 is further provided with a creating means, and the registration table 70 is created for each user terminal 3. Therefore, even if a plurality of consumers use the communication terminal as the user terminal 3 for self-registration at the same time, the virtual POS server 22 can process correctly.

Further, the virtual POS server 22 includes a product file 62 in addition to the product master file 61 possessed by the store server 21. At least the product name and the unit price of the product record stored in the product master file 61 are copied to the product file 62. Therefore, since the processor 221 of the virtual POS server 22 can acquire the product data of the product identified by the product identification data acquired from the user terminal 3 from the product file 62, the processing is compared with the case of referring to the product master file. The time is early. In addition, the amount of communication of the wired LAN 26 can be reduced. Moreover, every time the product record stored in the product master file 61 is updated, the product record in the product file 62 is also updated in real time. Therefore, for example, the unit price is changed to the product in the product master file 61 due to a time sale or the like. Even when the above occurs, the virtual POS server 22 can reliably register the product at the changed unit price.

Further, the virtual POS server 22 is provided with transmission means, and the user terminal 3 is provided with display means. Therefore, the consumer who uses the user terminal 3 can confirm the sales data of the product registered in the virtual POS server 22 in real time.

Although one embodiment has been described above, the embodiment is not limited to this.
For example, in the above embodiment, the store server 21 of the product sales processing device 2 is provided with the first acquisition means and the allowable means, and the virtual POS server 22 is provided with the second acquisition means and the processing means. As another embodiment, the store server 21 and the virtual POS server 22 may be realized by one server, and this server may be provided with each means.
Further, for example, the virtual POS server 22 may perform the processing routine of the store server 21 shown in FIG. In this case, if the processor 221 determines YES in the ACT 210 of FIG. 10, the processor 221 will execute the process of the ACT 302 of FIG.

In the above embodiment, the medium prepared for each store is the data code 5 of the two-dimensional code system. The medium is not limited to the data code 5. Depending on the amount of information included in the medium, a one-dimensional barcode may be used as the medium. When the user terminal 3 is equipped with the non-contact IC card technology, an antenna for short-range wireless communication is arranged in each store as a medium, and the user terminal 3 uses the non-contact wireless communication to provide store setting information. You may get 50.

Further, in the above embodiment, the data code 5 including the store entry flag is exemplified. In another embodiment, the data code 5 does not have to include the store entry flag. In this case, the processor 31 of the user terminal 3 omits the processing step of the ACT 106 of FIG. 7, and if the data code 5 is analyzed in the ACT 105, the processor 31 proceeds to the processing of the ACT 107.

The data structure of the store setting information 50 is not limited to that shown in FIG. For example, when it is assumed that the implementation is performed only at the store of one company, the company code can be omitted from the store setting information 50.

In the above embodiment, the management table 331 is provided in the external memory 33 of the user terminal 3. The management table 331 does not necessarily have to be possessed by the user terminal 3. The management table 331 may be provided on the cloud that can be accessed by the user terminal 3 and the product sales processing device 2.

In addition, although some embodiments of the present invention have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments and variations thereof are included in the scope of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.
The inventions described in the original claims of the present application are described below.
[1] Connect to a storage unit that stores product data including the name and price of the product identified by the product identification data in association with the product identification data, and a user terminal owned by the consumer using wireless communication. A first acquisition means for acquiring store identification data input to the user terminal from the communication means and the user terminal connected by the communication means, and the store identification acquired from the user terminal by the first acquisition means. When the data is valid data, the allowable means for making the user terminal available and the product identification data input to the user terminal from the user terminal made available by the allowable means are input. The second acquisition means to be acquired and the product data of the product identified by the product identification data acquired from the user terminal by the second acquisition means are acquired from the storage unit, and the product is sold based on the product data. A product sales processing device comprising a processing means for processing.
[2] Further provided with a creating means for creating a registration table for each user terminal that has become available by the permissible means, the processing means is a user who has acquired product identification data by the second acquisition means. The product sales processing device according to the appendix [1], which sells the product by registering the sales data of the product in the registration table for the terminal.
[3] The storage unit is provided separately from the master storage unit that stores at least the product data stored in the storage unit, and when the product data in the master storage unit is updated, the storage unit is stored. The product sales processing device according to the appendix [1] or [2], wherein the product data of the section is also updated.
[4] The name and price of the product identified by the product identification data in association with the user terminal owned by the consumer, the communication means for connecting to the user terminal by using wireless communication, and the product identification data. The user terminal includes a product sales processing device including a storage unit for storing the including product data, and the user terminal includes a first input means for inputting store identification data of the store from a medium prepared in the store, and the store. The product sales processing device includes a second input means for inputting product identification data of the product to be sold, and the product sales processing device has store identification data input to the user terminal from the user terminal connected by the communication means. When the store identification data acquired from the user terminal by the first acquisition means is valid data, the first acquisition means for acquiring the data, the allowable means for making the user terminal available, and the allowable means. The second acquisition means for acquiring the product identification data input to the user terminal from the user terminal that has become available by the second acquisition means, and the product identification data acquired from the user terminal by the second acquisition means for identification. A product sales processing system including a processing means for acquiring product data of a product to be manufactured from the storage unit and selling the product based on the product data.
[5] The merchandise sales processing device further includes a transmission means for transmitting at least the name and price of the merchandise sold by the processing means to the user terminal, and the user terminal is from the merchandise sales processing device. The product sales processing system according to the appendix [4], further comprising a display means for displaying the name and price of the received product.
[6] The product sales processing system according to the appendix [4] or [5], wherein the medium further includes connection information for enabling wireless communication with the product sales processing device.
[7] The product sales processing system according to any one of the appendices [4] to [6], wherein the medium is a data code of a two-dimensional code system.
[8] Connect to a storage unit that stores product data including the name and price of the product identified by the product identification data in association with the product identification data, and a user terminal owned by the consumer using wireless communication. A function of acquiring store identification data input to the user terminal from the user terminal connected to the computer of the product sales processing device provided with the communication means, the store identification acquired from the user terminal. When the data is valid data, a function of making the user terminal available, a function of acquiring product identification data input to the user terminal from the user terminal in the available state, the above-mentioned A control program for realizing a function of acquiring product data of a product identified by the product identification data acquired from a user terminal from the storage unit and selling the product based on the product data.
[9] Connect to a storage unit that stores product data including the name and price of the product identified by the product identification data in association with the product identification data, and a user terminal owned by the consumer using wireless communication. The product sales processing device provided with the communication means acquires the store identification data input to the user terminal from the user terminal connected by the communication means, and the store identification data acquired from the user terminal is valid. In the case of such data, the user terminal is made available, the product identification data input to the user terminal is acquired from the user terminal in the available state, and the product identification data acquired from the user terminal is acquired. A product sales processing method in which product data of a product identified by product identification data is acquired from the storage unit and the product is sold based on the product data.

1 ... Product sales processing system, 2 ... Product sales processing device, 3 ... User terminal, 4 ... Network, 5 ... Data code, 21 ... Store server, 22 ... Virtual POS server, 23 ... Communication server, 24 ... Accounting machine, 25 ... Access point, 26 ... Wired LAN, 31 ... Processor, 32 ... Internal memory, 33 ... External memory, 34 ... Touch panel, 35 ... Camera, 36 ... Wireless unit, 37 ... Communication interface, 61 ... Product master file, 62 ... Product File, 70 ... Registration table, 211,221 ... Processor, 212,222 ... Main memory, 213,223 ... Auxiliary storage device, 214,224 ... Communication interface, 331 ... Management table.

Claims (6)

The computer of the portable communication terminal,
It is determined whether or not the data code read by the code reading means is a data code for entering a store, and if it is the data code for entering a store, information related to wireless communication from the data code to the system of the store. Acquisition method,
Input means for entering the identification code that identifies the product, and
A control means that enables wireless communication based on the information related to the wireless communication acquired by the acquisition means, and enables the input means to input the identification code on condition that the system is connected to the system.
A program to function as. The computer
A display means for displaying a registration screen for displaying information on purchased products on a display device of the portable communication terminal, provided that the identification code can be input by the control means.
The program according to claim 1 for further functioning as. The computer
An update means for updating the registration screen so that information on a product identified by an identification code input by the input means, which can be input by the control means, is displayed.
The program according to claim 2 for further functioning as. The acquisition means determines whether or not the two-dimensional code read by the code reading means is a data code for entering a store, and if it is the data code for entering a store, the system of the store is used from the two-dimensional code. The program according to any one of claims 1 to 3, which acquires information related to wireless communication with. It is determined whether or not the data code read by the code reading means is a data code for entering a store, and if it is the data code for entering a store, information related to wireless communication from the data code to the system of the store. And the acquisition method to acquire
An input method for entering an identification code that identifies the product,
A control means that enables the input means to input the identification code on condition that the wireless communication is performed based on the information related to the wireless communication acquired by the acquisition means and is connected to the system.
A portable communication terminal equipped with. It is determined whether or not the data code read by the code reading means is a data code for entering a store, and if it is the data code for entering a store, information related to wireless communication from the data code to the system of the store. In a portable communication terminal equipped with an acquisition means for acquiring data and an input means for inputting an identification code for identifying a product.
Control of a portable communication terminal that performs wireless communication based on the information related to the wireless communication acquired by the acquisition means and enables the input means to input the identification code on condition that the system is connected to the system. Method.

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