KR19990045110A - Order entry system - Google Patents

Abstract

According to the order input system of the present invention, the control application can be operated at a position where there is no control device, and can print out a slip even when there is a failure of the control device or a problem of wireless communication.

The output terminal is configured to have an SS wireless communication function. The wired and wirelessly connected output terminals enable the output of slips from the wired output terminal even when there is a problem with wireless. The electric field strength of the radio device of the radio relay is measured at the SS radio output terminal so that an optimal radio relay can be selected. When periodic disturbance waves occur in SS wireless communication, transmission is made with a packet length smaller than the period of the wavelength in order to avoid communication problems. When the same information of the input terminal is received from several radio relays, information other than the first received information is invalidated.

Description

Order entry system

The present invention relates to all of the components from inputting an order at an input terminal of an order entry system arranged in a restaurant to printing them at an output terminal.

In a conventional order entry system, an order is entered at the input stage and the data is transmitted wirelessly to a radio relay. This data is then serially transmitted from the wireless relay to the control device via wire. In this controller, data is processed and outputted to the output terminal by serial communication. The already processed order data is transmitted from the control device to the POS terminal in response to a request from the POS terminal.

However, the conventional order entry system has the following problems.

In other words, since the output device is connected via a conductive wire, wiring work is required at the time of installation, and therefore, when the layout of the store is modified, it is difficult to change the installation place. In addition, since the data transmission speed between the control device and the wireless relay, as well as between the control device and the output terminal is low, there is a problem that it takes a considerable time from the input at the input terminal to the print output at the output terminal. When a failure occurs in the control device, a simple calculation mistake cannot be output from the output terminal. In addition, wireless relays are provided by installing a high-speed wireless device in a system that applies execution control in a POS terminal without a control device, a system that transmits input data to the POS terminal through a transmission connection from an input terminal without wireless delay, and wireless relays There is a problem that it becomes impossible to form a flexible system such as a wireless transmission system between them. Another problem is that the connection environment is accompanied by a number of connections, including a fixed connection device, between the multiple wireless outputs and the wireless relay, the installation environment worsens the data communication propagation environment of both sides when modified, resulting in increased retries. This results in problems such as longer communication time. There is also a problem that communication is impossible due to the effect of disturbing radio waves. And, when several radio relays receive the same information from the input terminal, all the data is transmitted to the control device by Ethernet, resulting in the overlap of processing of the order data.

1 is a conceptual diagram showing the overall configuration of an embodiment according to the present invention,

2 is a conceptual diagram illustrating a recovery method during occurrence of disturbing waves in SS communication;

3 is a configuration diagram according to a first embodiment of the present invention,

4 is a configuration diagram according to a second embodiment of the present invention,

5 is a configuration diagram according to a third embodiment of the present invention,

6 is a configuration diagram according to a fourth embodiment of the present invention,

7 is a configuration diagram according to a fifth embodiment of the present invention,

8 is a configuration diagram according to a sixth embodiment of the present invention,

9 is a conceptual diagram illustrating a radio relay selection procedure by an output terminal according to a seventh embodiment of the present invention;

Fig. 10 is a conceptual diagram showing a compromise processing procedure in the eighth embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

1: POS terminal 2: controller

3, 7, 8: wireless relay 5, 6, 11: output terminal

4, 10: input terminal 9: transmission device

12: Ethernet line

The present invention includes the following means as a means for solving the above problems.

The output terminal is provided with a spread spectrum (SS) concept radio as a data transmission means, and performs high-speed data transmission with a radio relay. In addition, the output terminal has an Ethernet function in the system and is configured to have a high-speed wired communication function, and transmits data to the output terminal during a problem in wireless communication. In the event of a failure of the control device, the transmission device is connected to the output terminal and the input terminal is set for the transmission device. The data transfer is made effective between the input terminal and the transmitter so that the data is transmitted to the output terminal in serial communication, so that a brief calculation slip is output. In addition, the control unit is parallel to the OS of Windows NT, Windows 95, etc. in the control unit, and uses a POS terminal that generates a control application that can operate on an OLE (Object Linking and Embedding) dynamic link library (OCX) driver base. It can be eliminated, thus making the system inexpensive. In the event of a failure of the control unit, the order processing can be continued without delay by driving the control application at the POS terminal. The connection of the output terminal to the POS terminal via Ethernet eliminates the radio relay, and can realize a minimally configured system with only the POS terminal, the output terminal, the transmitter and the input terminal. The wireless relay can be configured as an extended wireless repeater by making high-speed wireless communication of the wireless relay practical, eliminating wiring work, and giving flexibility in wireless relay installation. In addition, measurement and registration of the electric field strength of each wireless device communicating with the plurality of wireless relays at each startup are made, and the wireless output terminal selects an optimal wireless relay in the current connection environment.

If this relay is different from the radio relay already connected, the link information for the old connection device stored in the output terminal is canceled, and the link information for the radio relay to be newly connected is set in the output terminal. In addition, only when a problem occurs in data communication between the wireless relay and the output terminal due to periodic disturbance waves caused by the microwave oven or the like, transmission is divided into shorter packet lengths (data lengths) than the period of the disturbance wave. In order to handle the case where the same information is received from the plurality of radio relays from the input terminal, only the first received information is allowed to be used as the communication port for the identification information. Ignore all subsequent identical information.

In the order entry system of the present invention, the following configuration is provided to provide various effects. First, the output terminal communicates wirelessly with SS communication. The radio relay is placed within the SS radio. For this reason, high speed data transmission to the wireless relay increases the speed of a series of data processing (input from the input terminal to print out the slip from the output terminal), and eliminates the need for wiring work by using a wireless device, thereby eliminating the installation environment. Provides the effect of giving flexibility to. The control application is operated in the OCX, where the control application is started by a POS terminal capable of paralleling the OS of Windows NT, Windows 95, and the like. This configuration provides the same configuration as that of the operation of the control application in the controller (but the OCX is distinguished between the controller and the POS terminal). Therefore, a system configuration without a control device has an effect of making the system low cost. In addition, this configuration allows the output terminal to be connected to the POS terminal by high-speed Ethernet communication, and the output terminal is connected to the transmission device so that data transmission is performed by electromagnetic induction between the transmission device and the input device. Via serial communication towards the output terminal to be sent to the POS terminal. This configuration allows the removal of another radio relay from the system described above, and allows the smallest system in the optimal state to be configured by the small store. If a program for outputting a brief calculation slip is provided at the output terminal, and the input terminal and the transmission device are connected to the output terminal, the order data at the input terminal is transmitted through electromagnetic induction communication between the input terminal and the transmission device, and the data. Is processed and printed out at the output terminal. This allows a brief calculation document output to continue even in the event of a fault in the control, allowing the order processing to continue. Wireless relays can also be used as wireless repeaters. This configuration eliminates the need for wiring work for wireless relay expansion, thereby facilitating a change in installation location. In this case, if the input terminal is in SS wireless communication, the radio of the radio relay can be placed in a single SS communication, and can simply configure the radio relay. Also, if wired and wireless connected output terminals are installed in the system, the wired connected output terminal can continue to process the order without interruption in case of wireless output problem. In a system including a plurality of radio relays, when a radio output terminal needs to be relocated due to a layout change in a store, an optimal radio relay in the communication layout for the output terminal is selected and modified. This provides the effect that the optimum communication environment in the system is always maintained even if the layout of the output terminal changes the output terminal. In addition, when the output terminal is affected by the disturbance wave caused by the microwave oven or the like in the communication with the radio relay and generates an error, the communication is made to automatically give a packet length shorter than the period of the disturbance wave. This makes it possible to avoid the influence of periodic disturbances caused by the microwave oven, etc., thereby maintaining stable communication quality even under the influence of the disturbances. In addition, a communication port is provided to the control device so that the adjustment process is valid when the same information is received from the plurality of radio relays. With this configuration, when the same information is received from a plurality of radio relays, only the first received information can be adopted and subsequently the received information can be invalidated to eliminate the duplication problem of information processing.

Hereinafter, the configuration and operation of various embodiments of the present invention will be described in detail with reference to the accompanying drawings. The first description is an overview of the embodiments.

In Fig. 1, the input terminals 4, 10 perform input processing for order information given from a customer, which information is then wirelessly transmitted to the radio relays 3,7. And the data received by this radio relay is transmitted to the control apparatus 2 via an Ethernet circuit. In the control device 2, the data received from the radio relay is processed as data for the output terminals 5, 11 and transmitted to the radio relays 3, 7 via this Ethernet circuit. Data received by the radio relays 3 and 7 is transmitted to the output terminals 5 and 11 via the radio transmitter. The output terminals 5, 11 output data in the form of calculation slips. The control device 2 transmits the already processed order data to the POS terminal 1 in accordance with the order transfer request given from the POS terminal. The control device 2 has a function of transmitting or receiving order data, output terminal print data, stock consumption information, and the like to the wireless relays 3 and 7, and has a function of serially communicating with the transmission device 9 and the like. The radio relays 3 and 7 have a function of communicating with the control device 2 and a function of wirelessly communicating with the input terminals 4, 10 and the output terminals 5, 11. The output terminals 5, 11 have a function of wireless transmission with the radio relays 3, 7 and a function of serial communication with the transmission device 9. The input terminals 4 and 10 have a function of wirelessly transmitting with the radio relays 3 and 7 and a function of performing electromagnetic induction communication with the transmitter 9. The transmission device 9 has a function of performing electromagnetic induction communication with the input terminals 4 and 10 and a function of serial communication with the output terminals 5 and 11. If the control application is installed in the POS terminal 1, by the POS terminal 1, the wireless relays 3, 7, the output terminals 5, 11 and the input terminals 4, 10 without the control device 2. It is possible to configure the system. In this case, the function of the control device 2 is performed by the POS terminal 1. Further, the minimum configuration in the system embodiment can be made by the POS terminal 1, the output terminals 5 and 11, the input terminals 4 and 10 and the transmission device 9, and the output terminal 6 is Ethernet connection is possible. In this case, the transmitter 9 is connected to the output terminals 5, 11 and the input terminals 4, 10 are set up for the transmitter 9. This allows the order data at the input terminals 4, 10 to be transmitted to the transmitter 9 via electromagnetic induction so that the data is transmitted to the output terminals by serial communication. The data is then transmitted to the POS terminal 1 via Ethernet communication. The POS terminal 1 processes this data and processes it as print data to be transmitted to the output terminals 5 and 11 via Ethernet. The output terminals 5, 11 perform printout in accordance with the data received from the POS terminal. As another configuration in the extended sense, in the case of a failure of the control device 2 or the radio relays 3 and 7, the connection of the output terminal and the transmission device is such that the input terminal 4, 10 is connected to the transmission device. (9), the electromagnetic induction transmission of the order data to the output terminal is made via the transmission device 9, and the calculation slip is printed out at the output terminal.

Therefore, a simplified order entry system can be used in a continuous manner. Moreover, the use of the radio relay 8 allows the transmission and reception of order data and print data through high speed SS radio communication between the radio relay 7 and the radio relay 8 without the need for wiring work to the radio relay. Let this be done.

However, in the case of using transmission and reception of order data, the input terminals 4 and 10 are required to have an SS wireless communication function. Hereinafter, the embodiments will be described in detail.

Referring to Fig. 3, the first embodiment will be described. The radio relay 3 includes a radio circuit 305 in the 400 MHz band to receive order data and the like from the input terminal 4. The main CPU 302 transmits data to the Ethernet communication control circuit 301 via the 400 MHz band radio control driver 303 via the ISA bus. The data is then transmitted to the control device 2 via the Ethernet line 12, where the control device 2 generates slip data. This data is returned to the main CPU in the radio relay 3 via the Ethernet communication control circuit 301, where the data is processed and transmitted to the SS radio control driver 304. This data is transmitted to the SS radio control CPU 306 via PCMCIA I / F by parallel communication. The SS wireless CPU 306 processes the received data and transmits the data to the output terminal 11 through the SS wireless circuit 307 to perform wireless transmission.

Data received by the output terminal 11 of the SS radio circuit 308 is received and processed by the SS radio control CPU and transferred to the SS radio control driver 311 via the PCMCIA I / F. The data is then received and processed by the main CPU 310 in the output terminal 11. After the normal reception, the control device 2 is notified of the fact that the data was normally received by the reverse procedure via the radio relay 3. The data is transferred to the print CPU 312 of the output terminal by parallel transmission, where the print CPU 312 performs reception processing, and the print control circuit 313 performs print processing on the slip data. Therefore, the order input system is configured by the output terminal 11 and the radio relay 3 to perform radio processing with a spread spectrum (SS) concept.

4, a second embodiment will be described. The POS terminal 1 is a control application 402 for the order input system, a POS control application 401, an object linking and embedding dynamic link library (OCX), a Windows NT or Windows 95, etc. as a driver for controlling the application. Is configured by the OS 404. The POS terminal 1 is also used for order control. If the order control system device has a fault. The control application 402 of the order control system is switched on by an operation key in the POS terminal 1 or the like to perform order processing. In the case of recovery from a fault, switching of the POS control application 401 is performed by reactivating a key or the like. Therefore, the POS terminal 1 is governed by the order entry system.

5, a third embodiment will be described. The output terminal 6 is connected to the POS terminal 1 by high speed Ethernet communication. The output terminal 6 is connected to the transmission device 9 so that data transmission, such as order data, is made between the transmission device 9 and the input terminal 4 by electromagnetic induction. The data is transmitted to the output terminal 6 in serial communication, where the data is received and processed by the main CPU 502 via the serial driver 504. Data is sent to the Ethernet communication control circuit 301 through the Ethernet control driver 503. Data is sent to the POS terminal 1 via the Ethernet line 12. Calculation processing is performed with this data. This data is also sent to the output terminal 6 as cooking slip data via the Ethernet line 12 and received and processed by the main CPU 502 in the output terminal 6. If reception is normally performed, the response is returned by the reverse procedure for the POS terminal 1. This document data is transmitted to the printing CPU 312 in parallel communication. The print CPU 312 performs the reception process and causes the print control circuit 313 to perform the print process. This configures the order entry system.

Referring to Fig. 6, the fourth embodiment will be described. The brief calculation slip output program 603 was previously transmitted from the control device 2 to the output terminal 5 via the Ethernet communication and the radio relay 3 in advance. In a similar manner, the corresponding program 602 for the input terminal has been previously transmitted from the control device 2 to the input terminal 4. The transmission device 9 is connected to the output terminal 5 in advance so as to print a brief order slip in case of radio failure or the like. By electromagnetic induction communication between the input terminal 4 and the transmission device 9, the order data in the input terminal 4 is transmitted in series so that the main CPU 604 receives the processing through the serial driver in the output terminal 5. To perform. The data is transmitted to the print CPU 312 by parallel communication in accordance with the simplified calculation slip output program 603, where the print CPU 312 performs reception processing and print processing. The order entry system can then output a brief calculation slip.

Referring to Fig. 7, the fifth embodiment will be described. In the order input system having several radio relays, order data from the input terminal 4 is received and processed by the main CPU 706 through the 400 MHz band radio circuit 708 of the radio relay 8, and the repeater program ( According to the repeater program 705, it is transmitted by the SS radio control driver 704 to the SS radio control CPU 702 by parallel communication via the PCMCIA I / F. The data is received and processed by the SS radio control CPU 702, radio propagated through the SS radio circuit 703, and thus transmitted to the radio relay 7. This data is received by the SS radio circuit 307 of the radio relay, received and processed by the SS radio control CPU 306, and then transmitted to the SS control driver 304 in parallel communication via the PCMCIA I / F. do. This data is received and processed by the main CPU 701 in the radio relay 7 and transmitted to the controller 2 via the Ethernet line 12. Therefore, the order entry system has wireless relays used as wireless repeaters to process order data and journal data and to provide a second wireless relay and subsequent ones wirelessly.

8, a sixth embodiment will be described. The order data from the input terminal 4 is received by the radio relay 3, where the data is transmitted to the control device 2 via Ethernet line 12 in Ethernet communication. The control device 2 determines whether the designated output terminal is the wired output terminal 6 or the wireless output terminal 11 according to the output terminal control program 802. In the case of the wireless output terminal 11, the journal data is transmitted to the wireless relay 3 via the Ethernet line 12, where the wireless relay 3 performs reception processing for the data, and SS to the wireless output terminal. Transmit via wireless. At this time, if a communication error occurs for some reason, the status information is transmitted to the control unit 2 via the radio relay 3 and the Ethernet line 12, where the slip data is in accordance with the application program of the control unit 2 And a wired output terminal 6 connected via an Ethernet line 12. The Ethernet control circuit 301 in the wired output terminal 6 executes a receiving process for the data, and then the data is transmitted by parallel communication via the PCMCIA I / F and the Ethernet control circuit 503. To the main CPU 801 provided therein, where data is received and processed. The data is then transferred to the print CPU 312 by parallel communication and printed out by the print control circuit 313. Therefore, the order input system is provided with the wired output terminal 6 and the wireless output terminal 11, so that in the case of a wireless failure, the slip data is output to the wired connected output terminal and the order processing is performed without interruption.

A seventh embodiment will be described with reference to FIG. 9. In systems with multiple radio relays, where the wireless output terminals are to be relocated due to improvements in store layout or the like, an optimal radio relay for the communication environment can be automatically selected for the output terminals. In the start-up period, the connection status to each SS wireless device of each of the plurality of wireless relays is checked for each output terminal in the system. Observing the connection status response from the wireless relay, the wireless relay to be connected is authorized to send an electric field strength measurement request command for the relay to be connected. As a result, the level of the electric field strength is received as an electric field notification command from the SS wireless device of the radio relay. The radio relay with the largest electric field is selected. If this relay is different from the currently selected radio relay, the link information for the current radio relay is deleted and the link information for the radio relay with the largest electric field strength is stored in the memory of the output terminal. According to the stored information, the designation for the radio relay as the connection destination is made. A connection request is made to the selected relay to wait for the slip data and connection response from the wireless relay. Therefore, the order input system has an output terminal adopted to perform the slip output processing after data reception, and transmit the terminal information to the relay terminal.

Referring to Fig. 10, an eighth embodiment will be described. The control device for performing Ethernet communication has a connection window port, a data port and a communication port configured by an appropriate negotiation process. This connection window port is always in a standby state to open a data port corresponding to a connection request from several radio relays, and notifies the port number as a connection response to the radio relay. The data port transmits and receives commands between the wireless relay and the control device. If the data transmitted from one input terminal includes several radio relay transmissions, the cooperative process has a function of destroying data in a second or less. First, when a plurality of radio relays request a connection to the control device, the control device responds to the connection. The radio relay then responds with a co-circuit installation response, and the controller performs a cooperative circuit installation response. If an order from one input terminal is then received by multiple wireless relays, each wireless relay generates a response coordination command. The connection grant response command is issued toward the wireless relay from the first received control device. The access rejection response is generated toward the wireless relay which transmits a response coordination command after the second. The connection rejection information is transmitted by the response coordination command through the data port. Thereafter, the wireless relay performing the connection grant command transmits the order data, and the control circuit generates an order reception response therein. In addition, the wireless relay receiving the connection rejection response is an order input system having a function of removing order data. In addition, below, specific embodiments will be described with reference to each device. The POS terminal 1 is realized by providing an OCX environment on the same OS (OS of Windows NT, Windows 95, etc.) as the control device 2 for operating the control application, and allowing the control application to operate thereon. The hardware is under conditions that allow operating systems such as Windows NT and Windows 95 to work. The radio relays 3, 7, 8 control a radio communication device for communicating with an input terminal, a radio communication device for communicating with an output terminal, an Ethernet communication device for communicating with the control device 2, and respective devices. It includes a control device for. The wireless communication device for an input terminal is a 400 MHz band wireless device, which communicates with a control device by serial synchronous communication to transmit and receive data, error information, and the like.

Carrier information is observed and displayed on hardware (H / W). The wireless communication device for the output terminal has a 2.4 GHz bandwidth ratio and communicates with the control device through the PCMCIA I / F card controller. It sends and receives data, control information, error information and the like. The Ethernet communication device is equipped with a parallel controller with a 10 base-T controller, and communicates with the controller through the ISA bus by DMA transfer. The control unit is equipped with G / A with 32-bit RISC CPU, program memory (OS, driver, control application, etc.), data memory (DRAM), I / O, timer, interrupt controller, serial communication function, DMA communication function. It is configured to. In addition, the radio relays 3, 7, and 8 have a radio communication device commonly used for the input terminal and the output terminal if they can be parallel to the radio device. This also enables high speed operation to be obtained from the input of the input terminal to the print output of the output terminal. The output terminals 5, 11 have similar control devices to the radio relays 3, 7, 8, print control device and radio communication device, where parallel DMA communication becomes effective between the control device and the print control device. The control device has a communication serial control function with the transmission device 9 and has a communication serial control function with the display device added to one of the radio relays. Since G / A and the like are commonly provided to the controller, the configuration is such that the device identification signal is read by the I / O port at the start so that the driver and program required for each device are activated. The SS communication device is installed in the wireless communication device to allow the PCMCIA I / F to communicate with the control device through the PC card controller. The transfer function with the order data and program for the transmitter 9 uses a serial communication control line at the start. This line, when activated, provides connection confirmation to cause the transmission device 9 to start the communication driver and program. In addition, the output terminal 6 is provided with an Ethernet communication device instead of the wireless communication device. Similarly, communication with the control is via the PCMCIA I / F. The communication device identification is made by the dual information of the communication device so that the application and the driver in each device are started in parallel, thus providing the S / W configuration. The transmission device 9 has a function of performing electromagnetic induction communication with the input terminal and serial communication with the output terminal. In addition, an example of a disturbing wave recovery method in the SS communication period will be described in detail with reference to FIG. 2. In FIG. 2, the disturbance wave comes in periodically, and in case 1, communication problems (abnormal communication B and C) always occur because of the long packet length. To avoid this, the effect of the disturbance wave can be prevented by setting the packet length smaller than the period of the disturbance wave (normal communication F) only when a communication problem occurs (abnormal communication E) as in case 2. The length of the packet is restored to normal when normal communication proceeds (normal communication I), so as to maintain valid communication performance. The packet length can be changed independently of connecting the output device to the display device. In addition, the communication quality securing method for obtaining the optimum environment of the output terminals 5, 11 in communication with the radio relays 3, 7, 8 in the SS communication period includes the following steps.

That is, electric field strength is measured for each wireless device of the plurality of wireless relays during the operation period, thereby selecting a wireless relay capable of obtaining an optimum communication quality. If it is different from the current radio relay, the link information for the current radio relay is deleted, and the link information for the new optimal radio relay is stored in the memory in the output terminal. For this reason, optimum communication quality is automatically obtained even when the communication environment is changed by relocating the output terminal or placing an obstacle between the radio relays. Also, as a method for preventing the overlapping adoption of order data between the radio relays 3, 7, 8 and the controller 2, the controller is provided with a communication port, where the communication port is a connection window port, It is composed by data port and cooperative processing. The connection window port is always in the idle state to open the data port in response to a connection request from the wireless relay, and announce the port number to the wireless relay. Once opened, it is not closed until the cooperative process ends. The data port transmits and receives commands between the wireless relay and the control device. Once opened, it is not closed until the cooperative process ends. This cooperative procedure invalidates the second and subsequent data when the data transmitted from the input terminal is transmitted through the plurality of radio relays. Because of the response adjustment command as the data port function, connection rejection information is transmitted to the wireless relay that has transmitted the data for the second and subsequent. The connection grant response is then returned to the wireless relay that transmitted the first data. This is done by controlling a timer at the individual input terminal device, so that priority is determined. The timer processing is only by subtraction, the counter vale setting and confirmation is made in the cooperative process and thus the timing is performed. However, a response adjustment request is made in a timer operation period from another input terminal, and a response to the access grant is made. Whether there is another input terminal, an identification number of the input terminal having information transmitted by analyzing the data field of the response adjustment request command may be required. In addition, for data received by the communication port from the radio relay, analysis of the command field of the same data enables determination of the response coordination request command and the cooperative circuit installation confirmation command. The port number of the connection acceptance port can be changed by partially rewriting the registration contents of the control apparatus. The timer value can also be changed by rewriting the registration.

The practicality and effects of the present invention will be described below. High speed data transmission to the wireless relay and output terminals in wireless communication by SS communication increase the speed in a series of data processing. In addition, wireless communication makes wiring work unnecessary and gives flexibility to the setting environment. If the control application operates on the OCX base and the control application starts up at a POS terminal parallel to the OS such as Windows NT and Windows 95, a similar configuration can be obtained for the control application operating on the control device. This gives the effect that a system configuration without a control device can be made in a low cost way. The output terminal is connected to the POS terminal via high speed Ethernet, connecting the output terminal to the transmission device to enable data transmission to be effected by electromagnetic induction between the transmission device and the input device, and data to the output terminal by serial communication and If it is to be transmitted to the POS terminal via Ethernet, since the wireless relay required by the system is unnecessary, there is an effect that the optimal minimum system configuration required by the small store is possible. A program capable of paralleling the output of a brief calculation slip is provided to the output terminal, and the input terminal is connected to the transmission device, where the order data is output from the input terminal to the output terminal where data is processed through electromagnetic induction between the input terminal and the transmission device. If it is possible to transmit, even in the event of a failure of the control device, a brief calculation slip can be output and thus the effect of order processing can be made valid continuously. The use of wireless relays as repeaters eliminates the need for wiring for expansion, and the wireless relays provide the effect of easily changing the installation location. The output terminals are provided wirelessly and wired in the system so that in case of a failure, the wired output terminal outputs data so that the order processing can be continued without delay. In a system having a plurality of wireless relays, if a wireless relay is optimally selected and modified in a communication environment for an output terminal when the wireless output terminal is relocated due to a layout change of a store, the output terminal may be changed by a layout change of a store. Even in the event of relocation, the communication environment can be optimally maintained in the system. Even if the output terminal is interrupted by periodic disturbance wave caused by microwave oven, etc., the communication will automatically reduce the packet length to the period of disturbance wave to avoid periodic effect of disturbance wave caused by microwave oven etc. If possible, it is effective to obtain a stable communication quality even in the presence of disturbance wave. In addition, if a communication port is provided to the control apparatus and the adjustment processing is valid for the case where the same information is received from the plurality of radio relays, only the first received information is processed after the same information is received from the plurality of radio relays. The information received at is invalidated to have an effect of eliminating the problem of superposition of information processing.

Claims (10)

An input terminal for wirelessly transmitting order data related to the order given by the customer; A wireless relay for wirelessly receiving the order data transmitted from the input terminal; A control device for accepting order data, generating slip data and transferring slip data through the radio relay; An output terminal for receiving the slip data and outputting the slip; And said communication is wireless between said wireless relay and said output terminal. The system of claim 1, wherein communication between the wireless relay and the output terminal is wireless according to a spread spectrum concept. An input terminal for wirelessly transmitting order data related to the order given by the customer; A wireless relay for wirelessly receiving the order data transmitted from the input terminal; A POS terminal for executing calculation processing; An output terminal for receiving the slip data and outputting the slip; And said POS terminal executes order processing with a control application. An input terminal for wirelessly transmitting order data related to the order given by the customer by electromagnetic induction communication; A transmission device for transmitting and receiving the order data transmitted from the input terminal; An output terminal for receiving the order data transmitted from the transmission device, transmitting the order data to the POS terminal, receiving the slip data from the POS terminal, and outputting the slip; And a POS terminal which receives the order data from the output terminal, generates the document data, and transmits the document data to the output terminal. An input terminal for wirelessly transmitting order data related to the order given by the customer by electromagnetic induction communication; A transmission device for transmitting and receiving the order data transmitted from the input terminal; An output terminal for receiving the order data transmitted from the transmission device, transmitting wirelessly to the wireless relay, receiving the slip data from the wireless relay, and outputting the slip; The wireless relay for wirelessly receiving and transmitting order data to a control device; And the control device for receiving the order data, generating the journal data, and transmitting the journal data via the wireless relay; The input terminal has a simple calculation slip data generation program, the output terminal has a simple calculation slip output program, and in case of a problem in wireless communication between the radio relay and the output terminal, And a brief calculation document according to the brief calculation document data received from the input terminal. An input terminal for wirelessly transmitting order data related to the order given by the customer; An output terminal for receiving the order data and outputting a slip; A first wireless relay for transmitting and receiving by wireless data between the input terminal and the output terminal; A second wireless relay for transmitting and receiving data wirelessly with the first wireless relay and transmitting and receiving data with a control device by wire; And the control device for transmitting and receiving the order data, generating the document data, and transmitting the document data. An input terminal for wirelessly transmitting order data related to the order given by the customer; A wireless relay for wirelessly receiving the order data transmitted from the input terminal; A control device for receiving the order data, generating slip data, and transmitting slip data through the wireless relay; A first output terminal for wirelessly receiving the slip data and outputting a slip; A second output terminal configured to wire-receive the slip data and output a slip; And the second output terminal outputs a slip when a problem occurs in wireless communication between the wireless relay and the first output terminal. An input terminal for wirelessly transmitting order data related to the order given by the customer; A wireless relay for wirelessly receiving the order data transmitted from the input terminal; A control device for receiving the order data, generating slip data, and transmitting slip data through the wireless relay; And an output terminal for wirelessly receiving the slip data and outputting a slip; The electric field strength confirmation command is transmitted from the output terminal to the plurality of wireless relays, and in response to the electric field strength notification returned from the multiple wireless relays in response to the electric field strength confirmation command, the wireless relay having the greatest electric field strength is selected and An order entry system characterized by performing communication. An input terminal for wirelessly transmitting order data related to the order given by the customer; A wireless relay for wirelessly receiving the order data transmitted from the input terminal; A control device for receiving the order data, generating slip data, and transmitting slip data through the wireless relay; And an output terminal for wirelessly receiving the slip data and outputting a slip; And when the radio transmission data from the radio relay to the output terminal is interrupted by periodic disturbance waves, the radio transmission data is transmitted with a packet length smaller than the period of the disturbance wave. An input terminal for wirelessly transmitting order data related to the order given by the customer; A plurality of wireless relays for wirelessly receiving the order data transmitted from the input terminal; A control device for receiving the order data, generating slip data, and transmitting slip data through the wireless relay; And an output terminal for wirelessly receiving the slip data and outputting a slip; When the same order data wirelessly transmitted from the input terminal is received by the control device through the plurality of wireless relays, the control device selects one from the plurality of wireless relays to allow connection. Input system.