JP2007134877A - Communication system and its control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication system connecting a cordless telephone, a communication apparatus having a facsimile communication function and an image processor having a printer function through a network in which an image processor to which image data is outputted is judged automatically for every cordless slave unit when the communication apparatus receives image data and the image data can be outputted. <P>SOLUTION: The communication system comprises a first storage means for storing address information in correspondence with cordless slave unit information, and a second storage means for storing the cordless slave unit information in correspondence with image processor information. When opposite party information received matches address information stored in the first storage means, a cordless slave unit corresponding to the address information is determined, an image processor corresponding to the determined cordless slave unit is read out from the second storage means and determined, and then the received image data is delivered to the image processor thus determined. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

The present invention relates to a method for outputting image data received by a communication device in a communication system including a communication device and a plurality of image processing devices connected via a network.

  Conventional telephones with a facsimile function have a very high practicality with respect to telephone functions such as a cordless telephone function and a highly reliable FAX / TEL automatic switching function. Does not follow resolution. On the other hand, an MFP (Multi Function Peripheral) is good at a scanner function and a printer function, but is not as good as a telephone with a facsimile function in terms of a telephone function. For this reason, in order to satisfy all the functions of the telephone, FAX, scanner, and printer, the user must purchase both the FAX-equipped telephone and the MFP.

By the way, a received job processing method (distribution method to a folder / printer) when a plurality of MFPs having a FAX communication function are connected to a network is known (see Patent Document 1).
JP 2001-45208 A

  However, since the conventional example has a communication function for each MFP, there is a duplication of functions. In the first place, when the slave unit corresponding to the facsimile transmission source does not have a printer function, the data received by facsimile is not sorted. When the caller ID is registered in the phone book data, there is a problem that the distribution to the MFP associated with the slave device in which the phone book is registered is not performed.

The present invention is a communication system in which at least one cordless telephone, a communication device having a facsimile communication function, and at least one image processing device having a printer function are connected via a network. In this case, the present invention provides a communication system capable of automatically determining and outputting an image processing apparatus to be output for each cordless slave when a communication apparatus receives image data, and a control method therefor. It is for the purpose.

The present invention provides a control device and a voice signal between a communication device having a cordless telephone function and a facsimile communication function, at least one image processing device having at least a printer function, and the communication device by wireless connection. In a communication system having at least one cordless slave that transmits and receives, and a network that connects the communication device and the image processing device, first storage means that stores destination information in association with the cordless slave information A second storage unit that stores the cordless slave unit information and the image processing device information in association with each other; a receiving unit that receives the image data and destination information of a destination to which the image data is transmitted; If the destination information received by the receiving means matches the destination information stored in the first storage means The cordless slave unit determining means for determining the cordless slave unit corresponding to the destination information and the image processing apparatus corresponding to the cordless slave unit determined by the cordless slave unit determining unit are read from the second storage unit and determined. A communication system comprising: an image processing device determining unit; and an output unit that outputs the image data received by the receiving unit to the image processing device determined by the image processing device determining unit.

According to the present invention, when a cordless telephone, a communication device having a facsimile communication function, and an image processing device having a printer function are connected via a network and the communication device receives image data, it is desired to output each cordless slave unit. The image processing apparatus can be automatically identified.

  The best mode for carrying out the invention is the following examples.

  FIG. 1 is a diagram illustrating a communication system CS1 that is Embodiment 1 of the present invention.

  The communication system CS1 includes a communication BOX 100 as a communication device, a cordless slave device 200 (200-1, 200-2), an MFP 300 (300-1, 300-2) as an image processing device, and a network router 400. Have. The communication system CS1 includes a general PC (personal computer) 500 and a network cable 600. A public line 700 is connected to the communication BOX 100.

  The above components are connected to each other by a network defined by IEEE 802.3. The cordless handset 200 is connected to the communication BOX 100 by radio. In the first embodiment, a plurality of MFPs 300 can be connected to the network cable 600. Accordingly, in the communication system CS1, two image processing apparatuses are described as MFPs 300-1 and 300-2, but more connections are possible, and only one may be connected. .

  FIG. 2 is a block diagram showing the communication BOX 100.

  The communication BOX 100 is a communication device with a facsimile function in which an image reading unit and an image recording unit for facsimile communication are deleted. The communication BOX 100 is used for making a telephone call between the wireless interface for exchanging with the cordless slave units 200-1 and 200-2 and other devices using the facsimile communication and the cordless slave units 200-1 and 200-2. Interface to the public line 700. The communication BOX 100 has an interface for communicating with the PC 500 and MFPs 300-1 and 300-2 connected by the network cable 600.

  The communication BOX 100 includes a control unit 101, a ROM 102, a RAM 103, a buffer memory 104, a code decoding processing unit 105, a communication control unit 106, a modem 107, and a crosspoint switch unit 108. The communication BOX 100 includes a wireless control unit 109, a network control unit 110, a system bus 111, an antenna 112, a telephone directory memory 113, and a WEB page memory 114.

  The control unit 101 is a control unit that controls the entire communication BOX 100 in accordance with a program stored in the ROM 102.

  The ROM 102 stores a control program of the control unit 101, an operating system (OS) program, and the like, and the control unit 101 controls the operation of the communication BOX 100 according to the control program stored therein. In the first embodiment, each control program stored in the ROM 102 is subjected to software control such as scheduling and task switching under the management of the OS program stored in the ROM 102.

  The RAM 103 is used for arithmetic processing, storage of setting values registered by the operator, device management data, and the like, and storage of addresses acquired when the communication BOX 100 is connected to the router 400. The RAM 103 is used for storing addresses of MFPs 300-1 and 300-2 connected to the network cable 600. Further, as shown in FIG. 22, the RAM 103 stores the output destination MFP information of the data received by facsimile for each cordless slave unit 200-1 and 200-2 with a priority. Further, in the RAM 103, output destination MFP information is stored with a priority order as a default value so that data received by facsimile can be output even when the cordless slave unit is not compatible.

  The buffer memory 104 stores image data and data packets sent through the network cable 600, and stores facsimile image data transmitted / received via a public line.

  The encoding / decoding processing unit 105 compresses / decompresses image data received from the MFPs 300-1 and 300-2 or image data received from the public line, such as MH, MR, MMR, JBIG, and JPEG, according to the operation mode. Code decoding processing is performed.

  The communication control unit 106 is an interface for connecting the public line 700 and the communication BOX 100. The communication control unit 106 includes a ringer detection circuit that detects a call signal from the central office switch, a dial generation circuit, a transformer circuit that performs 2-wire to 4-wire conversion, and the like. Voice signals for calls by the cordless cordless handsets 200-1 and 200-2 and modulated signals for facsimile communication are transmitted to and received from the public line 700 through the communication control unit 106.

  The modem 107 modulates and demodulates digital data for facsimile communication.

  The crosspoint switch unit 108 switches an analog signal transmitted / received via the communication control unit 106 between the modem 107 and a radio control unit 109 (to be described later) depending on the operation mode under the control of the control unit 101.

  The wireless control unit 109 includes an RF module, and modulates control data and audio signals so as to communicate with the cordless slave units 200-1 and 200-2 that are connected wirelessly, and can be wirelessly transmitted. The data is converted into a format and sent to the antenna 112. Further, the radio control unit 109 demodulates a signal wirelessly received from the antenna, outputs control data to the control unit 101, and outputs an analog signal (audio signal) to the cross point switch unit 108.

  When the cordless slave device 200 is used, the communication BOX 100 and the cordless slave devices 200-1 and 200-2 are wirelessly connected to form an audio path.

  The network control unit 110 performs communication control over a network defined by IEEE 802.3 or the like.

  The network control unit 110 is connected to each network, performs protocol control in accordance with a standard such as TCP / IP, receives data packets from the MFPs 300-1 and 300-2, and sends data packets to the MFPs 300-1 and 300-2. Perform data packet transmission. Further, the network control unit 110 notifies the control unit 101 when it receives a data packet.

  As shown in FIG. 21, the telephone directory memory 113 stores the registered communication partner name, telephone number, FAX number, etc. in a table format for each cordless handset 200-1, 200-2.

  The system bus 111 is a system bus that connects the control unit 101 and each block.

  The WEB page memory 114 is a memory that is displayed on the display units of the cordless slave units 200-1 and 200-2, and is a WEB page memory that stores various setting menu screens described in the HTML format.

  The public line 700 performs telephone calls and facsimile communications through this.

  FIG. 3 is a block diagram showing the cordless child device 200.

  The configuration of the cordless slave device 200-1 and the configuration of the cordless slave device 200-2 are the same as each other, and the cordless slave device 200 is a generic term for the cordless slave devices 200-1 and 200-2.

  The cordless handset 200 is an example of a handset that transmits and receives control signals and audio signals to and from a communication device by wireless connection. The cordless child device 200 includes a control unit 201, a ROM 202, a RAM 203, a baseband unit 204, a wireless unit 205, an antenna 206, a display unit 207, and an operation unit 208. The wireless control unit 109 includes a speaker 209, a receiver 210, a microphone 211, an EEPROM 212, and a system bus 213.

  The control unit 201 performs overall control of the cordless child device 200.

  The ROM 202 stores a control program of the control unit 201, an operating system (OS) program, and the like, and the control unit 201 controls the operation of the cordless slave device 200 according to the control program stored therein.

  The RAM 203 stores arithmetic processing, image data to be displayed on the display unit 207, and stores telephone book data received from the communication BOX 100.

  The operation unit 208 includes function keys such as a dial key for inputting a dial number, a call key, a transmission key, a telephone book key, and the like.

  The display unit 207 displays various setting screens, input dial numbers, the cordless handset 200, the operation status of the communication BOX 100, and the like according to the operation of the operation unit 208.

  The baseband unit 204 has a modem compander and a secret talk / amplifier function, and modulates and demodulates control data and audio signals into a format with good transmission efficiency. The modulated signal from the baseband unit 204 is transmitted to the communication BOX 100 via the radio unit 205 described later. In addition, the modulation signal from the radio unit 205 is demodulated, the control signal is output to the control unit 201, and the audio signal is output to the speaker 209.

  The wireless unit 205 converts the modulated signal from the baseband unit 204 into a format that can be wirelessly transmitted, sends the modulated signal to the antenna 206, and takes out the modulated signal based on the signal received wirelessly from the antenna 206. To 204.

  The microphone 211 inputs a call voice signal. The speaker 209 sounds a sound output of an audio signal and a ring tone. The receiver 210 outputs a call voice signal.

  The EEPROM 212 includes a system call code (system ID) for establishing wireless communication between the cordless slave units 200-1 and 200-2 and the communication BOX 100, and the cordless cordless slave units 200-1 and 200-2. The slave unit number ID and the like are stored.

  The system bus 213 is a system bus that connects the control unit 201 and each block.

  FIG. 4 is a block diagram showing the MFP 300.

  Note that the configuration of the MFP 300-1 and the configuration of the MFP 300-2 are the same, and the MFP 300 is a generic term for the MFPs 300-1 and 300-2.

  The MFP 300 is an example of an image processing apparatus having at least a printer function.

  Further, the cordless handset 200 includes priority order assigning means for assigning a priority order for executing a predetermined process to each of the plurality of image processing apparatuses.

  The MFP 300 includes a control unit 301, a ROM 302, a RAM 303, a buffer memory 304, an operation unit 305, a reading processing unit 306, a reading unit 307, a recording processing unit 308, a recording unit 309, and a display unit 310. Have The MFP 300 includes an encoding / decoding processing unit 311, a network control unit 312, and a system bus 323. The image data read by the reading unit 307 is output to the network cable 600, the image data received from the network cable 600 is recorded by the recording unit 309, and the image data read by the reading unit 307 is further recorded by the recording unit 309. It can be recorded.

  A control unit 301 is a system control unit and controls the entire apparatuses of the MFPs 300-1 and 300-2.

  The ROM 302 stores a control program of the control unit 301, an operating system (OS) program, and the like, and the control unit 301 controls the operation of the terminal device according to the control program stored therein. In the first embodiment, each control program stored in the ROM 302 is subjected to software control such as scheduling and task switching under the management of the OS program stored in the ROM 302.

  The RAM 303 is used for arithmetic processing, storing setting values registered by the operator, device management data, and the like, and storing addresses acquired when the MFPs 300-1 and 300-2 are connected to the router 400.

  The buffer memory 304 accumulates read image data and received image data, and accumulates data packets transmitted and received via the network cable 600.

  The operation unit 305 includes various input keys, and the operator performs various input operations.

  A display unit 310 includes an LED, an LCD, and the like, and displays for setting the reading mode, displays for various settings, and displays the operation status of the MFPs 300-1 and 300-2.

  The reading processing unit 306 performs various types of image processing such as binarization processing and halftone processing on the image signal that has been read by the photoelectric conversion element in the reading unit 307 and converted into electrical image data. Output fine image data. The reading processing unit 306 is controlled by a scan control task program of a control program stored in the ROM 302.

  The reading unit 307 is configured by a photoelectric conversion element such as a CCD or a contact image sensor. The recording processing unit 308 performs resolution conversion processing and smoothing processing on the recorded image data so that the recording unit 309 records the image data. Also, when a failure such as paper out, paper jam, or toner (or ink) running out occurs in the recording unit 309, failure information is received from the recording unit 309 and notified to the control unit 301. The recording processing unit 308 is controlled by a printer control task program that is a control program stored in the ROM 302.

  The recording unit 309 includes a laser beam printer, an ink jet printer, or the like, and includes a recording paper detection unit, a toner (or ink) detection unit, and a jam detection unit. The code decoding processing unit 311 performs code decoding processing that compresses and decompresses image data such as MH, MR, MMR, JBIG, and JPEG in accordance with the operation mode.

  The network control unit 312 performs communication control using the network cable 600 defined by IEEE 802.3 or the like, and the network control unit 312 is connected to the network cable 600. The network control unit 312 performs protocol control in accordance with a standard such as TCP / IP, receives data packets addressed to the addresses acquired by the MFPs 300-1 and 300-2, and receives data packets from the MFPs 300-1 and 300-2. Send a data packet. Also, the network control unit 312 notifies the control unit 301 when it receives a data packet.

  A system bus 323 connects the control unit 301 and each block.

  Network cable 600 is connected to router 400.

  FIG. 5 is a flowchart illustrating the reception operation of the communication BOX 100 in the first embodiment.

  In the standby state, the communication BOX 100 monitors a call signal coming from the public line 700 (S1). When there is an incoming call, the caller ID detection means such as a number display acquires the destination information by the communication control unit 106 ( S2). Then, the line status is monitored, and a facsimile signal such as CNG is monitored (S3). If the incoming call is not a facsimile, the process proceeds to call processing (S4), and after the call ends, the communication control unit 106 opens the line ( S7).

  If CNG or the like is detected and the incoming call is a facsimile incoming call, the destination information is acquired by a facsimile procedure signal (TSI, NSS, etc.) from the other party in the pre-facsimile procedure (S5), and facsimile reception processing is performed (S6). ). After the reception is completed, the line is opened (S7), and a received image automatic output process (S8, FIG. 6) is performed.

  FIG. 6 is a flowchart illustrating the output operation of the received image according to the first embodiment.

  The communication BOX 100 determines whether there is a received image to be output in the standby state (S11). If there is a received image to be output, the communication BOX 100 determines whether there is destination information (transmission source information of the facsimile received image) (S12). If there is no destination information, the MFP information stored as a default value to be output at the normal time set in advance as shown in FIG. 22 is read to determine which MFP to output. The received image is output to the determined MFP 300-1 or 300-2 (S14). Notify all the cordless cordless handsets 200-1 and 200-2 that they have been received and output (S15). When set as shown in FIG. 22, the information is preferentially output to the MFP 300-1. However, if the MFP 300-1 is in an error state that cannot be output for some reason, it may be output to the MFP 300-2.

  When the partner information is detected (S12) and it is determined that the acquired partner information is registered in the phone book (S13), the cordless handset information is read with reference to the table shown in FIG. The cordless cordless handsets 200-1 and 200-2 corresponding to are determined. Next, with reference to the table shown in FIG. 22, information regarding the MFP 300 corresponding to the determined cordless child device is read. The MFP 300-1 or 300-2 is determined, and the received image is automatically output to the determined MFP 300 (S16). Then, the fact that the received image has been output is notified only to the cordless child device 200 corresponding to the destination information among the cordless child devices registered in the telephone directory (S17). In FIG. 21, when the destination is C, there are two cordless slaves 200-1 and 200-2 that register the destination number of C. In such a case, the cordless slaves 200-1 and 200-2 may be output to the MFPs 300-1 and 300-2, respectively, according to the priority order added. Further, it may be output to only one of the MFPs. In any case, both of the cordless slave units 200-1 and 200-2 are notified of which MFP has been output.

  The first embodiment is an example of a communication system in which the cordless slave unit has priority order assigning means for giving a priority order for executing a predetermined process to each of a plurality of image processing apparatuses.

In order to give the priority, the cordless slave unit manually designates the priority order from display means for displaying a plurality of image processing devices on the cordless slave unit and the plurality of displayed image processing devices. It is an example of the cordless cordless handset which has a priority designation | designated means to do. The priority order assigning means is a means for assigning the manually specified priority order.

  In the second embodiment, when the communication BOX 1100 receives a facsimile, the communication BOX 1100 temporarily stores the received image data and causes the cordless handset 1200 to display “Received”. Using the cordless handset 1200, the user designates the output destination MFP 1300 and instructs the communication BOX 1100 to record the received image data in the designated MFP 1300. The communication BOX 1100 is an embodiment in which image data is transferred to the MFP 1300 so as to be recorded by the designated MFP 1300 according to an instruction from the cordless slave device 1200.

  The communication system CS2 according to the second embodiment includes a communication BOX 1100, cordless slave devices 1200-1, 1200-2, MFPs 1300-1, 1300-2, a router 1400, a PC 1500, a network cable 1600, and a public line 1700. And have.

  Communication system CS2, communication BOX 1100, and cordless slave units 1200-1 and 1200-2 correspond to communication system CS1, communication BOX 100, and cordless slave units 200-1 and 200-2, respectively. MFPs 1300-1, 1300-2, router 1400, PC 1500, network cable 1600, and public line 1700 correspond to MFPs 300-1, 300-2, router 400, PC 500, network cable 600, and public line 700, respectively. Since each basically has the same configuration, a detailed description of the configuration is omitted.

  FIG. 7 is a diagram showing a configuration of slave unit 1200-1.

  The subunit | mobile_unit 1200-1 has the display part 207 and the operation part 208. FIG.

  The configuration of slave unit 1200-2 is the same as that of slave unit 1200-1.

  FIG. 8 is a diagram illustrating a memory map of the buffer memory 104 in the communication BOX 1100 according to the second embodiment.

  The buffer memory 104 includes a facsimile image storage area 801, a stored image storage area 802, and a stored data list storage area 803.

  In the second embodiment, whether or not the recording instruction to the MFPs 1300-1 and 1300-2 is automatically issued when the communication BOX 1100 receives facsimile data is set in advance.

  In the second embodiment, the user can determine the operation in real time at the time of reception without selecting the automatic print.

  In the communication box 1100, the communication control unit 106 always detects incoming calls and facsimiles from an external terminal by ringer detection. When the ringer signal is detected, the communication control unit 106 captures the line, and the connected external terminal is a telephone or a facsimile depending on whether or not the CNG signal is detected by a known FAX / TEL switching means. Is determined.

  If it is determined that the connected external terminal is a telephone, the communication BOX 1100 issues an incoming call notification to the cordless cordless handsets 1200-1 and 1200-2. The cordless cordless handsets 1200-1 and 1200-2 that have received this notification of incoming calls perform incoming call processing such as ringing a ringtone from the speaker 209, and thereafter perform known telephone operations. A sequence diagram of this telephone operation is as shown in FIG.

  A case where it is determined that the external terminal to be connected is a facsimile apparatus will be described with reference to FIGS. 9 and 11 are the same up to S104. Communication BOX 1100 enters facsimile reception processing. Image data is received by a known communication procedure such as G3, and the received image data is temporarily stored in a facsimile image storage area 801 in the buffer memory 104. Then, the encoding / decoding unit 105 converts the received encoding method into an encoding method for transferring MFPs 1300-1 and 1300-2 and stores it in the accumulated image storage area 802 in the buffer memory 104.

  In the second embodiment, the image format between the MFPs 1300-1 and 1300-2 and the communication BOX 1100 is exchanged by JBIG, and the image in the accumulated image storage area 802 is stored by JBIG.

  When the image processing is completed, the communication BOX 1100 transmits an incoming call display request (S101) to the cordless slave units 1200-1 and 1200-2. The contents to be displayed are stored in the WEB page memory 114 in the communication BOX 1100 in the html format, and this URL is added to the incoming call display request S101. The cordless cordless handsets 1200-1 and 1200-2 each display a message “facsimile received” in the above-mentioned html on the display unit 207, and at the same time, ring the ring tone and enter the print key reception mode.

  Here, the user having the cordless handset 1200-1 designates, for example, the MFP 1300-1 as an output destination and presses the print key (S102). At this time, cordless handset 1200-1 issues an image output instruction notification to communication BOX 1100 (S103), and communication BOX 1100 that receives this issues an image recording start request to MFP 1300-1 (S104).

  When the MFP 1300-1 receives the image recording start request (S104), the MFP 1300-1 responds to the communication BOX 1100 with an image recording start confirmation as to whether or not recording is currently possible (S105). If the MFP 1300-1 is in a recordable state, an image output instruction response is sent from the communication BOX 1100 to the cordless slave unit 1200-1 (S106). At the same time, an incoming call display cancel request is issued to the cordless slave unit 1200-2 (S107), the “facsimile received” displayed on the cordless slave unit 1200-2 is erased, and the normal standby mode is restored.

  If recording is possible, the communication BOX 1100 divides the image data stored in the accumulated image storage area 802 in the buffer memory 104 into packets of a predetermined size, and starts transfer to the MFP 1300-1 (S108). The MFP 1300-1 temporarily stores the received image data in the buffer memory 304, and when the image data corresponding to one page is transferred, the encoding / decoding processing unit 311 can record a JBIG format image. Convert to format and record. This process is executed until the recording for the number of received sheets is completed.

  When the recording of all the sheets has been completed, the MFP 1300-1 issues a recording end notification to the communication BOX 1100 (S109), and the communication BOX 1100 that has received this notification sends the cordless handset 1200-1 having previously pressed the print key. Then, a recording end display request is issued (S110). Cordless cordless handset 1200-1 displays “printing complete” for a certain period of time on the display unit, and then returns to the standby screen to end the reception process.

  Here, after the recording is completed, whether or not the received image data remaining in the communication BOX 1100 is to be deleted immediately may be registered in advance. If it is set to be erased, the corresponding image is erased from the image storage area 802 in the buffer memory 104 when the recording end notification is received (S109). If the setting is to leave data, management information such as the address and size of the remaining data is registered in the accumulated data list storage area 803 in the buffer memory 104 in the communication BOX 1100. In the accumulated data list storage area 803, in addition to the received data, data associated with facsimile reception such as the reception date and time and the sender are collectively managed.

  The cordless cordless handsets 1200-1 and 1200-2 that have received the incoming call display request (S101) display incoming calls for a certain period of time. Even when no print key is input from any cordless handset 1200, the communication BOX 1100 keeps the received data stored in the image storage area 802 in the buffer memory 104, and the stored data list storage area 803. This received data is registered.

  In response to the image recording start request, if the MFP 1300-1 is not in use or recording is not possible because it is out of paper, the communication box 1100 is returned to the communication BOX 1100 indicating that recording cannot be performed (S301).

  If recording is not possible, or if the MFP 1300-1 is turned off and no response is returned, the communication BOX 1100 issues a recording impossible display request to the cordless handset 1200-1 whose print key is pressed (S302). In response to this, the cordless handset 1200-1 displays a screen “Check Printer”.

  When the user of cordless handset 1200-1 checks the state of MFP 1300-1, corrects the problem, and presses the print key again, the recording process is executed according to the normal processing sequence shown in FIG. Alternatively, returning to S102, the MFP 1300-2 may be designated again instead of the MFP 1300-1. If the MFP 1300-2 is in a printable state, the recording process is executed according to the normal process sequence shown in FIG.

  If the print key is not pressed from any cordless handset 1200 for a predetermined fixed period, the communication BOX 1100 holds an image in the storage memory and registers this data in the storage data list.

  When data is stored in the stored data list due to the printer error or initial setting, the cordless slave units 1200-1 and 1200-2 are notified that there is data. Then, processing such as recording is performed according to an instruction from any of the cordless cordless handsets 1200-1 and 1200-2.

  If data that has not yet been recorded and output has been accumulated in the printer due to a printer error, no recording instruction, etc., the “Received” display is displayed in the same period as when it was received, and the user executes recording. , Or continue until you enter instructions to cancel the display. If newer data is received in this state, the display related to the latest reception is prioritized.

  FIG. 12 is a sequence diagram illustrating an operation in the case where “keep data” is set in the second embodiment and data remains in the accumulated data list after the output is completed.

  The print key of the cordless handset 1200-1 or 1200-2 is pressed (in this example, the print key is pressed by the cordless handset 1200-1) (S401). As a result, the cordless handset 1200-1 notifies the communication BOX 1100 of an image selection instruction (S402) and requests a data list of the stored data list. In response to the image selection instruction response (S403), the communication BOX 1100 sends a list of data existing in the stored data list to the instructed cordless slave unit 1200-1, and the cordless slave unit 1200-1 that has received this list Display a list.

  When the user selects a desired image from the list display and presses the print key (S404), the image can be recorded again by the same process as in normal recording. Similarly, when a predetermined key is pressed while a list is displayed, various processes such as deleting unnecessary data or transferring to a predetermined address by e-mail can be executed. it can.

  When print keys are received from a plurality of cordless slave units 1200 at the same time, the communication BOX 1100 employs the key of the cordless slave unit 1200 that first receives the image output instruction notification.

  In addition to “reception”, the data displayed based on the incoming call display request displays image information in the received data format (color / monochrome, image size) and communication information such as the transmission source. Set. The user may determine whether to record, store, or erase based on the information.

  Furthermore, when the display unit of the cordless handset 1200 is substantial, an image of received data may be actually displayed on the display unit of the cordless handset 1200.

According to the second embodiment, the facsimile reception can be recorded without using the PC 1500 or the like by using the recording unit 309 of the external MFP 1300-1 or 1300-2 without providing the recording unit in the communication BOX 1100. it can.

  In the third embodiment, when a state change occurs in the MFP, the state information is notified to the communication BOX via the network, and the communication BOX stores and manages the state information received from the MFP. When the communication BOX receives image data via a communication line, the MFP recording unit registered in advance as the output destination of the image data is in a normal state based on the state information managed above. Suppose that In this case, the transmission unit of the communication BOX transmits the image data to the MFP. The MFP receives image data from the communication BOX via the network, and starts printing the received image data. On the other hand, when it is determined that the recording unit of the MFP is in an abnormal state, the communication BOX is an example in which image data is stored in a memory.

  A communication system CS3 according to the third embodiment includes a communication BOX 2100, cordless slave units 2200-1, 2200-2, MFPs 2300-1, 2300-2, a router 2400, a PC 2500, a network cable 2600, and a public line 2700. And have.

  Communication system CS3, communication BOX 2100, and cordless slave units 2200-1 and 2200-2 correspond to communication system CS1, communication BOX 100, and cordless slave units 200-1 and 200-2, respectively. MFPs 2300-1 and 2300-2, router 2400, PC 2500, network cable 2600, and public line 2700 correspond to MFPs 300-1, 300-2, router 400, PC 500, network cable 600, and public line 700, respectively. Since each basically has the same configuration, a detailed description of the configuration is omitted.

  FIG. 13 is a flowchart illustrating an operation in which the MFP 2300 notifies the communication BOX 2100 of state information when there is a change in the state of the MFP 2300 in the third embodiment.

  That is, if there is a state change (S501), a process for notifying the communication box 2100 of state information is executed (S502). This state information is stored in the RAM 103 of the communication BOX 2100.

  FIG. 14 is a flowchart illustrating an operation in which the communication BOX 2100 updates the state information of the MFP 2300 when the state information is notified from the MFP 2300 to the communication BOX 2100 in the third embodiment.

  That is, the communication BOX 2100 monitors whether or not the status information is received from the MFPs 2300-1 and 2300-2 (S601). When the notification is received, the status information stored in the status information storage memory is received. Is updated (S602). This status information is stored in the RAM 103 of the communication BOX 2100 for each of the MFPs 2300-1 and 2300-2.

  FIG. 15 is a flowchart illustrating a facsimile reception processing operation performed by the communication BOX 2100 in the third embodiment.

  The communication BOX 2100 side monitors the arrival of a facsimile by CNG detection or the like (S701). When CNG is detected, a facsimile start procedure is performed to start facsimile reception processing (S702). Here, image data is received from the communication line and temporarily stored in the memory.

  Next, when the output destination of the image data is, for example, MFP 2300-1, it is checked whether MFP 2300-1 is normal. The output destination MFP is determined by the table of FIG. In this case, the status information of the MFP 2300-1 stored in the memory stored in the status information update process (S602) is checked (S703). If the output destination MFP 2300-1 is normal, the image data is transmitted to the MFP 2300-1 (S704), and then the status information of the MFP 2300-1 is monitored (S705). If the MFP 2300-1 is printing image data, it continues to monitor whether printing is normally performed, and if printing is terminated and returned to the idle state, it is regarded as normal termination. Next, normal termination processing such as deletion of received image data stored in the memory is performed (S706), and the process returns to S701.

  If an error state is detected, the received image data is stored in the memory (S707). Note that when the MFP 2300-1 in the printing process notifies the communication BOX 2100 of the status (S 601), the status information is updated (S 602). Note that the same processing as described above is performed when the output destination of the image data is the MFP 2300-2.

  When printing of facsimile reception data in MFP 2300-1 ends in error, the status information of MFP 2300-2 is checked, and if MFP 2300-2 is in a normal state, MFP 2300-2 may be the output destination. In that case, the received image data stored in the memory in step S707 is transferred to the MFP 2300-2.

  FIG. 16 is a flowchart illustrating an operation in which the MFPs 2300-1 and 2300-2 perform facsimile reception in the third embodiment.

  The MFPs 2300-1 and 2300-2 monitor whether image data has arrived from the communication BOX 2100 via the network cable 2600 (S 801), and if they have arrived, start printing processing of the image data (S 802). Next, it is monitored whether or not the printing process has been completed normally (S803). If the printing process is completed normally, a normal termination process for returning the printing operation to standby is performed (S804), and the process returns to S801. If an error occurs, a print job cancel process or an error end process corresponding to the error is performed (S805), and the process returns to S801.

  FIG. 17 is a flowchart illustrating an operation in which the communication BOX 2100 performs facsimile transmission processing in the third embodiment.

  In the third embodiment, a facsimile transmission instruction is issued to the communication BOX 2100 from the cordless slave unit 2200-1 or 2200-2. The reading instruction is issued from the cordless slave unit 2200-1 or 2200-2 to the MFP 2300-1 or MFP 2300-2 via the communication BOX 2100.

  First, it is monitored whether or not facsimile transmission is instructed from the cordless slave unit 2200-1 or 2200-2 (S901). Facsimile transmission is instructed, and referring to the table of FIG. 22, the MFP 2300-1 and 2300-2 registered as reading destinations have a normal reading unit state of the MFP that is determined to perform reading. Determine whether or not. That is, when it is determined that the MFP that performs reading is, for example, MFP 2300-1, it is determined whether or not the state of the reading unit of MFP 2300-1 is normal. In this case, the status information of the MFP 2300-1 stored in the memory stored in the status information update process (S602) is checked (S902).

  If normal, a reading instruction command is transmitted to the MFP 2300-1 (S903), and if abnormal, processing for canceling facsimile transmission is performed (S908). While the MFP 2300-1 is performing the reading process, the state of the reading unit of the MFP 2300-1 is monitored (S904).

  If the error ends, facsimile transmission stop processing is executed (S908). When the reading process is normally completed, the process waits for the read image data to arrive from the MFP 2300-1 (S905). When the image data is received, a data conversion process such as an encoding process for facsimile transmission is performed (S906). . Thereafter, the communication control unit 106 performs a facsimile transmission process (S907). The facsimile transmission destination is designated by the cordless handset 2200-1 or 2200-2. Also, when it is instructed that the MFP to read is the MFP 2300-2, processing is performed in the same manner as described above.

  Next, an operation when the MFP 2300-1 is designated by the cordless handset 2200-1 or 2200-2 will be described.

  FIG. 18 is a flowchart illustrating an operation in which the MFPs 2300-1 and 2300-2 perform facsimile transmission processing in the third embodiment.

  Whether the MFP 2300-1 has received the reading instruction command transmitted by the communication BOX 2100 is monitored (S1001). If the reading instruction command is received, the reading unit is driven to start the reading process (S1002). During the reading process, it is monitored whether or not the reading unit normally finishes reading (S1003). When the reading unit ends normally, the read image data is transmitted to the communication BOX 2100 (S1004). If the reading unit is in an abnormal state during the reading process, an error ending process such as notifying the communication BOX 2100 to that effect is performed, and the process ends (S1005). Note that the same processing as described above is performed when the MFP designated by the cordless handset 2200-1 or 2200-2 is the MFP 2300-2.

  As described above, in the third exemplary embodiment, when the state change occurs in the MFPs 2300-1 and 2300-2, the state information is notified to the communication BOX 2100 via the network cable 2600. Further, the communication BOX 2100 stores and manages the status information of the MFPs 2300-1 and 2300-2. As a result, when the communication BOX 2100 receives a facsimile, the received image data can be transmitted to the MFPs 2300-1 and 2300-2, and can be optimally processed such as being printed or stored in a memory. .

  Further, when an error occurs during printing by the MFPs 2300-1 and 2300-2, image data can be stored in the memory of the communication BOX by notifying the communication BOX 2100 to that effect. Further, it is possible to transfer the facsimile reception image data to another MFP 2300 which is in a normal state and perform printing normally. When the processing is normally completed, processing such as erasing image data stored in the memory of the communication BOX can be optimally performed.

  Also, in the facsimile transmission processing, the communication BOX 2100 confirms the state of the reading units of the MFPs 2300-1 and 2300-2, so that the facsimile transmission can be stopped promptly when the reading unit is in an error state. it can. A user who performs facsimile transmission can quickly change the MFP 2300 in another normal state as a reading device and use it.

Also, if an error occurs in the reading unit while the MFP 2300-1 or 2300-2 is reading a document for facsimile transmission, the communication BOX 2100 is notified to that effect and the facsimile transmission is immediately stopped. Can do. The user can quickly cancel the error, and if it is urgent, the user can designate and use another normal MFP 2300 as the reading device.

  The fourth embodiment is an embodiment regarding the correspondence between the cordless slave unit and the MFP.

  The fourth communication system includes a communication BOX 100, cordless slaves 200-1 and 200-2, MFPs 300-1 and 300-2, a router 400, a PC 500, a network cable 600, and a public line 700. .

  A communication BOX 100, cordless slave units 200-1 and 200-2, MFPs 300-1 and 300-2, a router 400, a PC 500, a network cable 600, and a public line 700 that constitute the fourth communication system are: This is the same as each configuration in the first embodiment. Therefore, description of each detailed structure is abbreviate | omitted.

  Instead of the cordless slave device 200, cordless slave devices 1200 and 2200 may be used.

  Next, the operation of the fourth embodiment will be described.

  When there are a plurality of MFPs 300 on the network, the MFP 300 and the cordless slave device 200 may be associated with each other, and the MFP 300 corresponding to the operated cordless slave device 200 may read the document. One MFP 300 may be dedicated to facsimile transmission.

  Next, an operation of registering a slave unit when the cordless slave unit 200 and the MFP 300 are associated with each other in the fourth embodiment will be described.

  Specifically, a case will be described in which cordless child device 200-1 and MFP 300-1 are registered in association with each other.

  In the initial state, the cordless slave device 200 (200-1, 200-2) is only connected to the communication BOX 100 wirelessly and is not associated with the MFP 300 connected to the network.

  Plug and play is realized when the MFP 300-1 is connected to the network by the network router 400 having the DHCP function.

  That is, when the MFP 300 is physically connected to the network by the network router 400 having the DHCP function, settings necessary for communication such as TCP / IP are automatically performed. Here, the IP address of MFP 300-1 is determined.

  Then, based on the IP address distributed by the network router 400 having the DHCP function, the communication BOX 100 that desires address resolution can know the MAC address of the connected MFP 300-1. As a means in this case, for example, there is ARP (Address Resolution Protocol).

  In the above ARP, the communication BOX 100 that desires address resolution to know the MAC address from the IP address sends a packet called a broadcast packet, “MFP 300-1 having this IP address, please return the MAC” to the other party in the entire LAN. Send to. Then, ARP broadcast is performed.

  Thereafter, all the MFPs 300 existing in the LAN receive the broadcast packet, and the irrelevant MFP 300 having no IP address discards the packet. Finally, when an MFP 300 having a specific IP address is found, unicast is performed on a one-to-one basis with the MFP 300 to establish communication. The detailed exchange there is not directly related to the above-described embodiment, and the description thereof is omitted.

  Note that the relationship between the IP address and the MAC address may be determined by another means called RARP (Reverse Address Resolution Protocol).

FIG. 19 is a diagram illustrating a reference format of a MAC address according to the fourth embodiment.
The format of the MAC address is a 48-bit code, and consists of 48 bits of a 24-bit vendor code and a 24-bit node number (a management code that does not overlap with other devices managed and provided by the manufacturer). ing.

  In the format shown in FIG. 19, 3 to 24 bits are called a vendor identifier, a specific number is assigned to each manufacturer, and 25 to 48 bits are assigned a different number to each network interface manufactured by the manufacturer. Structure.

  According to the fourth embodiment, the network control unit 110 of the communication BOX 100 can determine the manufacturer based on the vendor identifier portion of the MAC address of the connected MFP 300-1.

  Then, it can be recognized that the connected apparatus is the MFP 300.

  Then, by transmitting the manufacturer data to the cordless handset 200-1, the cordless handset 200 can display only products connected to a predetermined manufacturer on the LAN.

  FIG. 20 is a diagram illustrating an example displayed on the display unit 207 when the cordless slave device 200 and the MFP 300 are associated with each other in the fourth embodiment.

  By pressing each key of the operation unit 208, a desired MFP 300 is selected from the plurality of MFPs 300 and determined.

  FIG. 20A is a diagram illustrating an association screen between the cordless child device 200 and the MFP 300 according to the fourth embodiment.

  FIG. 20B is a screen showing a list of MFPs 300 that can be used at present in the fourth embodiment, and is a screen that is selected after displaying FIG. Here, the manufacturer is determined from the vendor identifier portion of the MAC address, and only MFP products manufactured by Company A are displayed. Of course, another company's MFP may be displayed.

  Further, from the node number of the MAC address, it may be displayed that the product is a scanner / printer and the performance of the scanner / printer.

  FIG. 20 (3) is a determination screen in the fourth embodiment, and is a screen displayed after displaying FIG. 20 (2).

  Here, a determination is made to associate the currently used child device 200-1 with the MFP 300-1.

  The communication BOX 100 stores the association between the slave device 200-1 and the MFP 300-1. That is, the RAM 103 of the communication BOX 100 stores the association between the slave device 200-1 and the MFP 300-1. Specifically, an address acquired when the communication BOX 100 is connected to the network router 400, such as setting values registered by the operator, management data of the communication BOX 100, and the like are stored, and arithmetic processing and the like are performed. Further, the address of the MFP 300 connected to the network and the association between the MFP 300 and the slave device 200 are stored, and arithmetic processing and the like are performed.

  As described above, the association between the slave unit 200-1 and the MFP 300-1 is performed on a one-to-one basis. However, the MFP 300 is prioritized, and a plurality of MFPs 300-1 and 300-2 are assigned to the slave unit 200-1. You may associate. In this case, it is stored in the communication BOX 100 as shown in FIG.

  Further, as shown in FIG. 21, the telephone directory memory 113 of the communication BOX 100 stores a communication partner name, telephone number, facsimile number, and the like registered for each cordless handset 200.

  The phone book data registered in the cordless handset 200-1 is stored for each cordless handset 200 in the phone book memory 113 of the communication BOX 100. When facsimile transmission / reception is performed from the MFP 300-1, the telephone directory data of the cordless handset 200-1 can be used by referring to the telephone directory memory 113 of the communication BOX 100.

  After the association, when the cordless slave unit 200 operates the MFP 300, the communication BOX 100 receives the instruction content from the slave unit 200, and the communication BOX 100 is associated based on the received content. A predetermined instruction is issued to the MFP 300.

  For example, a case where the cordless slave 200-1 instructs the MFP 300-1 to perform facsimile transmission will be described.

  The cordless child device 200-1 transmits the input destination number information and facsimile transmission instruction information to the communication BOX 100. Upon receiving the destination number information, facsimile transmission instruction information, etc., communication BOX 100 temporarily stores the destination number information in buffer memory 104 of communication BOX 100, and sends a read start command to MFP 300-1 through network control unit 110. Send.

  According to the fourth embodiment, a conventional facsimile telephone can be handled like a one-to-one correspondence between a parent device and a child device, and facsimile transmission / reception can be realized while maintaining the same operability. Can do.

  Further, according to the fourth embodiment, when the association is performed, not only the unicast in which the slave device 200 and the MFP 300 communicate on a one-to-one basis, but also the multicast in which the slave device 200 and the MFP 300 communicate on a specific one-to-one basis. Is also possible.

  According to the fourth embodiment, high-functional telephone functions such as a cordless telephone function, an answering machine function, a highly reliable facsimile / telephone switching function can be realized by the communication BOX 100. Then, reading of a document at the time of facsimile transmission can be realized by using the MFP 300 having a high-performance reading unit. Therefore, the configurations of the communication BOX 100 and the MFP 300 are simple, and it is possible to provide a user with a low-cost and high-performance telephone function and a high-performance image input / output function for a personal computer.

  Further, according to the fourth embodiment, when the scanner function and the printer function of the MFP 300 become obsolete, it is sufficient for the user to replace only the MFP 300. Therefore, the economic burden on the user who replaces the MFP 300 that has made rapid progress is reduced. can do.

  Further, according to the fourth embodiment, when a plurality of MFPs 300 are connected to the network, facsimile transmission from each MFP 300 becomes possible via the communication BOX 100. Therefore, the same result can be obtained by a single facsimile communication function provided in the communication BOX 100 when there are a plurality of facsimile apparatuses.

  Further, according to the fourth embodiment, when there are a plurality of slave units 200, they are associated with the MFP 300, so that the master unit and the slave units in a conventional facsimile telephone have a one-to-one correspondence. Can be handled. Then, facsimile transmission / reception can be realized with the same operability, and the telephone book data can be associated.

  In the fourth embodiment, the image processing apparatus performs only transmission on the public line, apparatus that performs only reception on the public line, apparatus that performs transmission and reception on the public line, and neither transmission nor reception on the public line. Which of the apparatuses is registered in the image processing apparatus.

  Incidentally, the cordless handset 200 is an example of means for instructing the image processing apparatus to read a document. The network control unit 110 is an example of a receiving unit that receives a document reading signal read by the image processing apparatus based on a document reading instruction signal output from the cordless slave unit. The buffer memory 104 is an example of a memory that stores document reading signals received from the image processing apparatus.

  The communication control unit 106 is an example of a transmission unit that transmits a document reading signal received from the image processing apparatus via a line. The control unit 201 and the ROM 202 are examples of reading signal generating means for generating a reading instruction signal for instructing the image processing apparatus to read a document. The wireless unit 205 is an example of a transmission unit that transmits a reading instruction signal to the image processing apparatus.

Further, the network control unit 312 is an example of a document reading instruction signal receiving unit that receives a document reading instruction signal from a cordless slave unit via a communication device. The reading unit 307 is an example of a document reading unit that reads a document based on a received document reading instruction. The network control unit 312 is an example of a transmission unit that transmits read data obtained by reading a document to a communication device.

  Embodiment 5 of the present invention is an embodiment in which a program that realizes the functions of the above embodiments is supplied directly or remotely to a system or apparatus, and the system or apparatus reads and executes the supplied program code. is there.

  Accordingly, the program code itself installed in the computer in order to realize the functional processing of the present invention by the computer is also included in the technical scope of the present invention.

  In this case, as long as it has the function of a program, the form of the program is not limited, such as an object code, a program executed by an interpreter, script data supplied to the OS.

  As a recording medium for supplying a program, there are a floppy (registered trademark) disk, a hard disk, an optical disk, a magneto-optical disk, an MO, a CD-ROM, a CD-R, a CD-RW, a magnetic tape, and a nonvolatile memory card. Further, there are ROM, DVD (DVD-ROM, DVD-R) and the like as recording media for supplying the program.

  When the program is supplied, it can be supplied by connecting to a homepage on the Internet using a browser of a client computer and downloading the computer program of the present invention from the homepage to a recording medium such as a hard disk. The program can also be supplied by downloading a compressed file including an automatic installation function to a recording medium such as a hard disk.

  It can also be realized by dividing the program code constituting the program of the present invention into a plurality of files and downloading each file from a different homepage.

  That is, a WWW server that allows a plurality of users to download a program file for realizing the functional processing of the present invention on a computer is also included in the claims of the present invention.

  In addition, the program of the present invention is encrypted, stored in a storage medium such as a CD-ROM, distributed to users, and key information for decryption is downloaded from a homepage via the Internet to users who have cleared predetermined conditions. You may make it make it. By doing so, it is also possible to execute the encrypted program using the key information and install it in the computer.

  In addition to the functions of the above-described embodiments being realized by the computer executing the read program, an OS running on the computer based on an instruction of the program is a part of the actual processing. Or do everything. In this way, the functions of the above embodiments can be realized by the processing.

Further, the program read from the recording medium is written to a memory provided in a function expansion board inserted into the computer or a function expansion unit connected to the computer, and then executed based on the instructions of the program. Also good. As a result, the CPU or the like provided in the function expansion board or function expansion unit performs part or all of the actual processing, and the functions of the above-described embodiments are realized by the processing.

It is a figure which shows communication system CS1 which is Example 1 of this invention. It is a block diagram which shows communication BOX100. It is a block diagram which shows the cordless cordless handset. 2 is a block diagram showing an MFP 300. FIG. 6 is a flowchart illustrating a reception operation of the communication BOX 100 in the first embodiment. 3 is a flowchart illustrating an operation of outputting a received image in the first embodiment. It is a figure which shows the structure of the subunit | mobile_unit 1200-1. In Example 2, it is a figure which shows the memory map of the buffer memory 104 in communication BOX1100. In Example 2, it is a sequence diagram which shows a facsimile reception process. It is a sequence diagram which shows the telephone call incoming process of Example 2. FIG. 10 is a sequence diagram illustrating facsimile reception processing according to the second embodiment. FIG. 10 is a sequence diagram illustrating an output process of data in a communication BOX 1100 in the second embodiment. 10 is a flowchart illustrating an operation of notifying a communication box 2100 of state information when a state change occurs in the third embodiment. 12 is a flowchart illustrating an operation of updating state information when notification of state information is received from the MFP 2300 in the third embodiment. 10 is a flowchart illustrating a facsimile reception processing operation performed by a communication BOX 2100 in the third embodiment. 10 is a flowchart illustrating an operation in which the MFP 2300 receives a facsimile in the third embodiment. 11 is a flowchart illustrating an operation in which a communication BOX 2100 performs facsimile transmission processing in the third embodiment. 13 is a flowchart illustrating an operation in which the MFP 2300 performs a facsimile transmission process in the third embodiment. It is a figure which shows the reference format of the MAC address in Example 4. FIG. FIG. 10 is a diagram illustrating an example displayed on the display unit 207 when the cordless slave device 200 and the MFP 300 are associated with each other in the fourth embodiment. It is an example of the table which memorize | stores other party information for every subunit | mobile_unit. It is an example of a table for registering an output destination MFP for each slave unit.

Explanation of symbols

CS1 ... communication system,
100: Communication BOX,
200 ... Cordless handset,
300: MFP,
400 ... router,
500 ... PC,
600 ... Network cable,
700: Public line.

Claims (13)

At least one communication device having a cordless telephone function and a facsimile communication function, at least one image processing device having at least a printer function, and at least one for transmitting and receiving control signals and audio signals to and from the communication device by wireless connection. In a communication system having two cordless slave units and a network connecting the communication device and the image processing device,
First storage means for storing destination information in association with the cordless handset information;
Second storage means for storing the cordless handset information and the image processing apparatus information in association with each other;
Receiving means for receiving image data and destination information of the destination to which the image data is transmitted;
Cordless handset determining means for determining a cordless handset corresponding to the destination information when the destination information received by the receiving means matches the destination information stored in the first storage means When;
Image processing apparatus determining means for reading and determining an image processing apparatus corresponding to the cordless slave apparatus determined by the cordless slave apparatus determining means from the second storage means;
Output means for outputting the image data received by the receiving means to the image processing apparatus determined by the image processing apparatus determining means;
A communication system comprising: In claim 1,
The communication system is characterized in that when the output means outputs the image data to the image processing apparatus, the communication means has a notification means for notifying the cordless slave unit corresponding to the image processing apparatus that the image data has been output. Communication system. In claim 1 or claim 2,
Third storage means for storing the communication apparatus and the image processing apparatus information in association with each other, and when the receiving means has not received the destination information, or the destination received by the receiving means When the information is not stored in the first storage unit, the image processing apparatus determination unit determines an image processing apparatus to read and output the image processing apparatus information from the third storage unit, and outputs the output unit. A communication system characterized by outputting the image data to the determined image processing apparatus. In claim 3,
The communication means, wherein the notification means notifies all of the at least one cordless child device of the output. It has a cordless telephone function and a facsimile communication function, and is connected to at least one image processing apparatus having at least a printer function via a network, and transmits and receives control signals and audio signals by wireless connection with at least one cordless slave unit. In the communication device to
First storage means for storing destination information in association with the cordless handset information;
Second storage means for storing the cordless handset information and the image processing apparatus information in association with each other;
Receiving means for receiving image data and destination information of the destination to which the image data is transmitted;
Cordless handset determining means for determining a cordless handset corresponding to the destination information when the destination information received by the receiving means matches the destination information stored in the first storage means When;
Image processing apparatus determining means for reading out and determining an image processing apparatus corresponding to the cordless slave apparatus determined by the cordless slave apparatus determining means from the second storage means;
Output means for outputting the image data received by the receiving means to the image processing apparatus determined by the image processing apparatus determining means;
A communication apparatus comprising: In claim 5,
The communication device includes a notification unit that notifies the cordless slave unit corresponding to the image processing device of the output when the output unit outputs the image data to the image processing device. Communication device. In claim 5 or claim 6,
Third storage means for storing the communication apparatus and the image processing apparatus information in association with each other, and when the receiving means has not received the destination information, or the destination received by the receiving means When the information is not stored in the first storage unit, the image processing apparatus determination unit reads the image processing apparatus information from the third storage unit, determines an image processing apparatus to be output, and outputs the output The means outputs the image data to the determined image processing apparatus. In claim 7,
The notifying means notifies all of the at least one cordless slave unit of the output. At least one communication device having a cordless telephone function and a facsimile communication function, at least one image processing device having at least a printer function, and at least one for transmitting and receiving control signals and audio signals to and from the communication device by wireless connection. In a control method of a communication system having two cordless slave units and a network connecting the communication device and the image processing device,
A first storage step of storing the destination information in the first storage device in association with the cordless handset information;
A second storage step of storing the cordless slave device information and the image processing device information in association with each other in a second storage device;
A receiving step of receiving image data and destination information of the destination to which the image data is transmitted;
Cordless handset determination step of determining a cordless handset corresponding to the destination information when the destination information received by the receiving step matches the destination information stored in the first storage device When;
An image processing device determination step of reading and determining an image processing device corresponding to the cordless child device determined by the cordless child device determination in the second storage step;
An output step of outputting the image data received in the reception step to the image processing device determined in the image processing device determination step;
A control method for a communication system, comprising: In claim 9,
A control method for a communication system, comprising: a notification step of notifying that the cordless slave unit corresponding to the image processing device outputs the image data to the image processing device in the output step. In claim 9 or claim 10,
A third storage step of associating and storing the communication device and the image processing device information in a third storage device, and when the destination information is not received in the reception step, or the reception When the destination information received in the step is not stored in the first storage device, the image processing device determination step reads the image processing device information from the third storage device and outputs it. And the output step outputs the image data to the determined image processing apparatus. In claim 11,
The method of controlling a communication system characterized in that the notifying step notifies all of the at least one cordless child device of the output.   The computer-readable program for implement | achieving the control method of the communication system of any one of Claims 9-12.

Images