JP2005123886A - Communication terminal device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem of a multifunction machine arranged to perform scanning operation and facsimile communication alternatively in order to prevent the complication of an arrangement that conflict happens between the scanning operation and the facsimile communication. <P>SOLUTION: The multifunction machine 200 comprising a plane sequential system color scanner 203 for reading respective colors of RGB individually, and an NCU 18 for external line is provided with a CPU 10 for bringing the NCU 18 into line connection state with a virtual communication terminal on the basis of a priority control program 201 during the color scanning of each color, and bringing it into a non-line connection state during the non-color scanning of each color. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a communication terminal device having a scanner and a communication function with an external line.

Conventionally, there are copy / facsimile multifunction peripherals having a scanner function, a printer function, and a facsimile communication function.
Such a multi-function peripheral is configured to receive image data even during copying. Specifically, when a facsimile is received from the other machine during the copy function operation, a control command is output from the CPU to the communication hard codec, and the communication hard codec performs code conversion processing as necessary. Thus, the scanner process, the copy process, and the communication process related to facsimile reception can be performed in parallel.

Here, such a multifunction machine has two image capturing means (scanner and facsimile apparatus), but has only one printer.
For this reason, there may be a conflict between the print of the image data read by the scanner and the print of the image data obtained by facsimile reception.
Japanese Patent Application Laid-Open No. 2004-151620 discloses a technique for performing control to switch priority prints according to the number of copies in order to prevent contention in printing when different image data is taken in. That is, when the number of copies is large and time is required, priority is given to printing of received image data.

JP 2000-134389 A

In general, the color scan operation takes time. In particular, in a color sequential type color scanner, since each of the RGB colors is individually scanned and the carriage is reciprocated three times, more time is required.
Further, the scan operation in the switchback type double-sided scanner also takes time. This is because in the case of the double-sided reading of the switchback method, after the reading of one side is finished, the document is once transported to the discharge tray side, and then switched back to read the other side. It is.

In addition, if it is possible to perform color scanning or double-sided scanning by the switchback method and facsimile communication in parallel (multi-operation is possible), the configuration of the multi-function peripheral becomes complicated. In order to enable simultaneous encoding of image data captured by a scanner and encoding of image data received by facsimile, either a hard codec is provided, or one codec is software-like. This is because it is necessary to proceed with two encoding processes simultaneously.
In order to prevent the configuration of the multi-function peripheral from becoming complicated, a conflict occurs between the scanner operation and the facsimile communication when the scanner operation and the facsimile communication are selectively performed. . In order to prevent this conflict, it is necessary to prioritize either one.

  In other words, the problem to be solved is that, in the configuration of the multi-function peripheral, in order to prevent the configuration from becoming complicated, the scan operation and the facsimile communication can be performed when the scan operation and the facsimile communication are alternatively possible. This is a point where competition occurs.

  The problems to be solved by the present invention are as described above. Next, means for solving the problems will be described.

That is, in claim 1,
A communication terminal device comprising a color scanner and a line connection control unit to an external line,
During the execution of a series of operations related to color scanning, the line connection control unit is provided with a control means for setting the line connection state with the virtual communication terminal device.

In claim 2,
A communication terminal apparatus comprising a color sequential color scanner that individually reads each color of RGB and a line connection control unit to an external line,
It is provided with a control means for setting the line connection control unit during the color scan of each color to the line connection state with the virtual communication terminal device, and setting the line connection control unit to the line non-connection state during non-scanning of each color. is there.

In claim 3,
A transmission / reception means for transmitting / receiving data via an external line;
The control means includes
In the middle of the color scan, the line connection control unit shifts to the line unconnected state, and the transmission / reception unit shifts to a dormant state, and at the end of the color scan, the transmission / reception unit shifts to a transmission / reception standby state. It is.

In claim 4,
A communication terminal device comprising a double-sided reading means with switchback and a line connection control unit to an external line,
During the execution of a series of operations related to double-sided reading, the line connection control unit is provided with a control means for setting the line connection state with the virtual communication terminal device.

In claim 5,
A communication terminal device comprising a double-sided reading means with switchback and a line connection control unit to an external line,
Control means is provided for setting the line connection control unit to be in a line connection state with a virtual communication terminal device while reading each surface, and for setting the line connection control unit to a line non-connection state when not reading each surface. Is.

In claim 6,
A transmission / reception means for transmitting / receiving data via an external line;
The control means includes
In the middle of reading each surface, the line connection control unit shifts to the line unconnected state, and the transmission / reception means shifts to a dormant state. Is to be transferred to.

  As effects of the present invention, the following effects can be obtained.

  According to the first aspect of the present invention, there is no competition between the color scanner operation and the facsimile reception. In addition, since the color scanner operation and facsimile reception are alternatively selected and the processing is executed by the communication terminal device, the configuration of the communication terminal device is not complicated.

  According to the second aspect of the present invention, it is possible to efficiently perform the color scan process while reducing the waiting time for facsimile reception.

  According to the third aspect of the present invention, it is possible to efficiently perform the color scan process while reducing the waiting time for facsimile reception.

  According to the fourth aspect of the present invention, there is no conflict between the duplex scanning operation and the facsimile reception. Moreover, since the duplex scanning operation and the facsimile reception are alternatively selected and the processing is executed by the communication terminal device, the configuration of the communication terminal device is not complicated.

  According to the fifth aspect, it is possible to efficiently perform the double-sided scanning process while reducing the waiting time for facsimile reception.

  According to the sixth aspect of the present invention, it is possible to efficiently perform the duplex scanning process while reducing the waiting time for facsimile reception.

From now, three embodiments of the communication terminal apparatus of the present invention will be described.
Each of these three embodiments is a multi-function machine having a copy / facsimile function. These multifunction devices are provided with one or more programs (priority control programs) for setting processing priorities when the scanning operation and facsimile reception conflict.

The MFP 100 according to the first embodiment includes a line sequential color scanner 103, and a priority control program 101 is stored in the ROM of the MFP 100. The CPU of the multi-function device 100 and the priority control program 101 constitute control means according to the present invention.
The multifunction device 200 according to the second embodiment includes a color sequential scanner 203, and priority control programs 201, 301, and 401 are stored in the ROM of the multifunction device 100. The CPU of the multi-function device 200 and any one of the priority control programs 201, 301, and 401 constitute a control unit according to the present invention.
The multifunction machine 300 according to the third embodiment includes a switchback type double-sided monochrome scanner 303, and priority control programs 501, 601, 701, and 801 are stored in the ROM of the multifunction machine 100. The CPU of the multifunction machine 300 and any one of the priority control programs 501, 601, 701, and 801 constitute control means according to the present invention.

A multi-function device 100 according to the first embodiment will be described with reference to FIG.
The MFP 100 includes a CPU 10, ROM 12, RAM 13, image memory (DRAM) 14, line sequential color scanner 103, image recording unit 4, operation unit 2, display unit 20, codec 15, modem 17, and NCU (line connection). A control unit 18, and these devices are communicably connected via the bus 11.

The ROM 12 stores a control program for controlling the multifunction device 100 and the like. These control programs include a priority control program 101 according to the present invention.
Various information such as the control state of the multifunction peripheral 100 is temporarily stored in the RAM 13.
The CPU 10 performs overall control of the multifunction peripheral 100 using the RAM 13 as a work area in accordance with an input operation to the operation unit 2 and a control program written in the ROM 12.

  As will be described in detail later, the color scanner 103 optically scans (scans) an original such as a photograph, document, or drawing with three colors of RGB, measures the intensity of the reflected light and transmitted light, D (analog-digital) conversion is performed, and image information that is image data is output.

  The image recording unit 4 is configured by an electrophotographic printer, and records (prints) image information read by the color scanner 103 and image information received via the modem 17 on a recording sheet. The image memory 14 temporarily stores the image information read by the color scanner 103 for memory transmission, or temporarily stores the received image information until it is recorded by the image recording unit 4. Image information is stored in the image memory 14 in a fixed format (for example, MMR method).

  The operation unit 2 is provided with various operation keys such as a start key 21 and a use pattern selection key 23 as input means for operating the multifunction peripheral 100. The display unit 20 is configured by an LCD (Liquid Crystal Display), and is arranged on the operation unit 2 to display various information such as an operation state of the multifunction peripheral 100.

  The image memory 14 temporarily stores received image information and image information read by the color scanner 103 and compressed and encoded by the codec 15 using the MH, MR, or MMR method. The codec 15 encodes (encodes) the image information read by the color scanner 103 by MH, MR, MMR, or the like for transmission. The codec 15 decodes (decodes) the received image information.

  The modem 17 is transmission / reception means for transmitting / receiving data via the telephone line 9 which is an external line. In particular, the modem 17 is a transmission / reception means for FAX communication, and modulates transmission data and demodulates reception data based on a facsimile transmission control procedure according to ITU (International Telecommunication Union) recommendation.

The NCU 18 is a line connection control unit for the telephone line 9 that is an external line, and is one communication terminal apparatus that is alternatively selected from a plurality of other communication terminal apparatuses connected to the same telephone line 9. And the MFP 100 can be connected to a line.
The NCU 18 has a state in which a line is connected to one other communication terminal device (line connection state) and a state in which no line is connected to any other communication terminal device (line not connected) There are two states. In this line unconnected state, the NCU 18 is in a line connection standby state with another communication terminal device.

The line connection via the NCU 18 is performed as follows.
First, a call signal for the multifunction device 100 is transmitted from another communication terminal device connected to the telephone line 9. Hereinafter, the calling signal is referred to as “calling”.
The calling signal reaches the NCU 18 via the telephone line 9. The state in which the NCU 18 receives this calling signal is hereinafter referred to as “incoming call”.
Here, the NCU 18 has a function of detecting an incoming dial signal corresponding to the telephone number (including the fax number) of the other party, that is, an “incoming call”. In response to the “incoming call”, the NCU 18 connects the line between the modem 17 and the caller communication terminal apparatus (the modem), and the modem 17 receives data from the caller communication terminal apparatus. In the following, “incoming call” refers to a state in which data is received by the modem 17, and is distinguished from “incoming call” which means a state in which a call signal is received by the NCU 18.

The line connection corresponding to the “incoming call” described above is performed only when the NCU 18 is in a line unconnected state.
On the other hand, when the NCU 18 is in a line connection state with another communication terminal device, even if a “call” is received from another communication terminal device, the NCU 18 does not detect the call signal, that is, “incoming call”. Is not detected, and the previous line connection is maintained. At this time, it is detected that the NCU 18 of the multi-function device 100 is in a “busy state” (line connection state) in the communication terminal device that is a later caller.

Next, the operation at the time of image reception from the external line in the multifunction peripheral 100 will be described with reference to FIG.
In the following, image reception processing from an external line will be described using a facsimile as an example. This operation is executed under the control of the CPU 10 based on a program stored in the ROM 12.

In the facsimile reception process flow shown in FIG. 2, it is first determined whether or not the NCU 18 has detected “incoming call” (step S109).
When the NCU 18 detects “incoming call” in step S109, the process proceeds to step S110, which leads to the process to the reception side. The NCU 18 can detect “incoming call” when the MFP 100 and another communication terminal device are not connected to each other.
On the other hand, when the NCU 18 does not detect “incoming call” in step S109, this flow is once ended and the determination in step S109 is performed again. Here, when the NCU 18 does not detect “incoming call”, a line is connected between the case where no call is made from another communication terminal device to the multifunction device 100 and the multifunction device 100 is connected to one of the communication terminal devices. There is a case where the line is connected at that time.

In step S110, it is determined whether the modem 17 is in a standby state or a hibernation state.
If the modem 17 is in a standby state, the process proceeds to step S111 that leads to a process to the reception side.
If the modem 17 is in the dormant state, this flow is once ended, and the determination in step S109 is performed again.

  In step S111, the CPU 10 starts a facsimile transmission control procedure based on the program stored in the ROM 12.

  In step S112, the image information transmitted from the transmission side is received by the modem 17, and the received image information is encoded by the codec 15 according to the MMR code method or the like and temporarily stored in the image memory 14.

  In step S113, it is determined whether all image information has been received and the facsimile transmission control procedure has been completed. Specifically, in the facsimile transmission control procedure, it is determined whether the facsimile transmission control procedure is completed based on the DCN signal transmitted from the transmission side being detected by the NCU 18. When the facsimile transmission control procedure is completed, the process proceeds to step S114, and a signal indicating that image information has been received is sent to the display unit 20. On the other hand, if the facsimile transmission control procedure has not ended, the process returns to step S112 to receive image information.

Next, in the multifunction device 100, control for preventing contention between scanning by the color scanner 3 and facsimile reception will be described.
This control is executed by the control of the CPU 10 based on the priority control program 101 stored in the ROM 12.

The operation procedure of the multifunction peripheral 100 based on the priority control program 101 will be described with reference to FIG.
The priority control program 101 is a program for controlling the CPU 10 so that the scanning operation is prioritized when the scanning operation and the facsimile reception compete in the communication terminal device including the color scanner 103.
This will be described in detail below.

Step S11 means that a series of color scanning processes has been started under the control based on the priority control program 101.
Here, a series of color scanning processes means all color scanning processes if a double-sided color scanner of the frame sequential method, and means both scanning processes of the front and back sides if a double-sided scanner. . In the case of a line sequential color scanner provided in the multi-function peripheral 100, reading is completed with a single movement of the optical system device (carriage). For convenience of explanation, this one-time reading process is also referred to as “color scanning series processing”. To do.

When a series of color scan processes is started, the CPU 10 shifts the NCU 18 to a line connection state between the multifunction peripheral 100 and a virtual caller (step S12).
Here, the transition to the line connection state with the virtual caller means that the NCU 18 is virtually transitioned to the line connection state.
That is, if the NCU 18 of the multifunction device 100 is in the line connection state, the multifunction device 100 is detected as busy (line connection state) on the other communication terminal device side that makes a call to the multifunction device 100. By making use of this, the NCU 18 is shifted to the line connection state with the virtual caller, so that the call is actually made even if the other communication terminal device and the multifunction peripheral 100 are not connected to the line. Thus, data is not transmitted from the communication terminal device on the side so that a conflict between the scanner operation and the facsimile reception is prevented.

  In step S13, it is determined whether or not a series of color scan processes has been completed. If it is determined that the process has ended, the line connection state of the NCU 18 is canceled and the facsimile reception is controlled. (Step S14).

  When a call is made to the multi-function device 100 after the line connection state of the NCU 18 is canceled in step S14, the NCU 18 that has received the call signal receives the call source communication terminal device and the multi-function device 100. Line connection. That is, facsimile reception is performed based on the normal procedure shown in FIG.

  As described above, the MFP 100 sets the NCU 18 (line connection control unit) to the line connection state with the virtual communication terminal device during the execution of a series of operations related to color scanning according to the priority control program 101. CPU 10 (control means) is provided.

For this reason, during a color scan, even if there is a call from another communication terminal device, the NCU 18
In this case, the incoming call is not detected, so that the color scanner operation does not compete with the facsimile reception. Moreover, since the color scanner operation and facsimile reception are alternatively selected and the process is executed by the multi-function device 100, the configuration of the multi-function device 100 is not complicated.

Note that the control based on the priority control program 101 is not limited to the application to the multifunction peripheral 100 including the line sequential color scanner 103 according to the first embodiment.
The control based on the priority control program 101 can also be applied to the multi-function device 100 including a frame sequential color scanner.

Next, the MFP 200 according to the second embodiment will be described with reference to FIG.
The multi-function device 200 is provided with a frame sequential color scanner 203. Other configurations are the same as those of the multifunction device 100 according to the first embodiment, and only the configuration of the scanner is different between the multifunction devices 100 and 200. In the following description, the same reference numerals are used for the same parts in both MFPs 100 and 200, and descriptions of those parts are omitted.

The multifunction device 200 is provided with two priority control programs 201 and 301.
Here, the CPU 10 controls the multifunction device 200 based on one of the priority control programs 201 and 301. Based on which priority control program, the control operation of the CPU 10 can be performed by a user input operation on the operation unit 2.
Hereinafter, the control operation of the CPU 10 when the priority control programs 201 and 301 are switched will be described in two embodiments.

The operation procedure of the multifunction device 200 based on the priority control program 201 will be described with reference to FIG.
The priority control program 201 is a program that controls the CPU 10 so that the color scanning operation is prioritized when each color scan and facsimile reception compete in a communication terminal device including the color sequential scanner 203.
This will be described in detail below.

Step S21 means that, under the control based on the priority control program 101, the first color scan among the three RGB scans has been started.
Here, in the scanning method of the surface sequential color scanner 203, the light source is composed of RGB color line lamps, and the reading line of the line sensor with respect to the document is individually moved relative to each of RGB, and the reflected light is converted into each reflected light. This is a frame-sequential color filter switching method in which the light is incident on the image sensor through different color filters and is read three times.
For this reason, every time each color is read, the scanning pause time is taken until the carriage (optical system apparatus) returns to the reading start position.

  When the color scan of the first color is started, the CPU 10 shifts the NCU 18 to a line connection state between the multifunction device 200 and the virtual caller (step S22).

  In step S23, it is determined whether or not the first color scan has been completed. If it is determined that the first color scan has been completed, the line connection state of the NCU 18 is canceled and the incoming call is controlled. (Step S24).

When the line connection state of the NCU 18 is released, it is determined in the NCU 18 whether there is an incoming call from another communication terminal device (step S25).
When there is an incoming call, facsimile reception is started (step S26), and when the end of facsimile reception is confirmed (step S27), the processing of the priority control program 201 performed in accordance with the first color scan is executed. finish.
If there is no incoming call, it is determined whether or not a predetermined waiting time (for example, about 10 to 30 seconds) has elapsed (step S28). This determination is made based on the output signal from the timer that counts the elapsed time from the time when the first color scan in step S23 is completed. Until the predetermined waiting time elapses, the determination in step S25 is repeatedly performed, and when there is no incoming call even after the predetermined waiting time elapses, the priority control program 201 executed in association with the color scan of the first color. This process ends.

FIG. 5 illustrates only the processing of the priority control program 201 that is performed along with the color scan of the first color.
The processing of the priority control program 201 is performed not only for the first color but also for the second and third color scans, but the first color shown in FIG. This is performed in the same manner as in the case of color scanning.
In other words, the processing of the priority control program 201 is performed by performing a series of processing shown in FIG. 5 over RGB three-color scans. In FIG. 5, when the process performed with the color scan of the first color is completed, the process performed with the color scan of the second color is started, and the process performed with the color scan of the second color is started. When the process is completed, the process performed in association with the third color scan is started. When the processing performed in accordance with these three color scans ends (when the processing in FIG. 5 loops three times with different colors), the processing of the priority control program 201 ends.

  As described above, according to the priority control program 201, the MFP 200 sets the NCU 18 (line connection control unit) to the line connection state with the virtual communication terminal device during color scanning of each color, A CPU 10 (control means) is provided to place the NCU 18 in a line unconnected state during non-scanning.

  For this reason, it is possible to efficiently perform the color scan process while reducing the waiting time for facsimile reception.

In the priority control program 201, a predetermined waiting time (step S28) is provided between scans of each color, and this waiting time is set as a waiting time for facsimile reception during a series of color scanning processes. .
In the frame sequential color scanner, the color scan is paused while the carriage (optical system device) returns to the reading start position for reading the next color. The predetermined waiting time may be used. In other words, if there is an incoming call to the NCU 18 until the carriage is restored, the color scanning series processing is interrupted and facsimile reception is performed with priority.

The operation procedure of the multifunction machine 200 based on the priority control program 301 will be described with reference to FIGS.
Similar to the priority control program 201, the priority control program 301 also prioritizes the color scan operation in the case of a conflict between the scanning of each color and the facsimile reception in the communication terminal device including the frame sequential color scanner 203. It is a program for controlling the CPU 10.
This will be described in detail below.

Step S31 means that, under the control based on the priority control program 301, the first color scan of the RGB three-color scans has been started.
When the color scan of the first color is started, the CPU 10 shifts the NCU 18 to a line connection state between the multifunction device 200 and the virtual caller (step S32).

Next, in step S33, it is determined whether or not the execution time of the first color scan has reached a predetermined scan time.
Here, the predetermined scan time is a time set according to the end point of the color scan of the first color. By determining whether or not the predetermined scan time has been reached, a time point, for example, 15 seconds before the end time of the first color scan is specified. As will be described in detail later by this determination, the NCU 18 is shifted to a line disconnected state before the end of the first color scan, and the NCU 18 is placed in a call waiting state, and the end of the first color scan. At the same time, facsimile reception is possible.
Here, the time required for the color scan of the first color varies depending on the length of the document in the sub-scanning direction. Accordingly, a predetermined scan time is set for each paper size including portrait and landscape placement, and the time when this scan time elapses is, for example, 15 seconds before the end of the first color scan. The standard for setting the time of 15 seconds will be described later.

When a predetermined scan time has elapsed in step S33, the line connection state of the NCU 18 is canceled and the incoming call is controlled (step S34).
In addition, the modem 17 is controlled to a transmission / reception pause state (step S35). The modem 17 is put into the sleep state when the NCU 18 in the line unconnected state detects an incoming call, and accordingly, data flows into the bus 11 from another communication terminal apparatus in the line connected state. This is to prevent it. If data flows into the bus 11 before the color scan of the first color is completed, a conflict between the scan operation and facsimile reception occurs, but this is to prevent this.

After step S35, it is determined whether or not the first color scan has been completed (step S36). This determination is repeated until the end of the first color scan is confirmed.
When the end of the first color scan is confirmed, the modem 17 is controlled to be in a transmission / reception standby state (step S37).

Next, in step S38, it is determined whether or not the NCU 18 has received a call during the modem pause time from the end of step 34, that is, from the time when the NCU 18 returns to the line disconnected state to the determination time of step S38. Is done.
If there is an incoming call, the modem 17 immediately receives a facsimile (step S39). When the end of facsimile reception is confirmed (step S40), the processing of the priority control program 301 that is performed along with the first color scan is completed.
Here, the reason why the setting of the scan time is, for example, 15 seconds before the end of the first color scan is that the time of 15 seconds is that the communication terminal device on the calling side seeking line connection This is because it means the maximum time for which data cannot be transmitted while the line is connected. In other words, if the state in which data transmission is impossible continues for 15 seconds or more, the calling communication terminal apparatus is automatically disconnected, and the effect of waiting for facsimile reception while maintaining the line connection state is lost. In other words, when automatic disconnection occurs, facsimile reception will not be started simultaneously with the transition of the modem 17 to the standby state in response to a prior call.

Further, if there is no incoming call during the modem pause time, the processing of the priority control program 301 that is performed along with the color scan of the first color ends.
If there is an incoming call before step S37, facsimile reception is immediately performed when the modem 17 returns to the transmission / reception standby state in step S38. That is, the process of step S38 is added to FIGS. 6 and 7 for convenience of explanation.

6 and 7 also illustrate only the processing of the priority control program 301 that is performed along with the first color scan.
The processing of the priority control program 301 is performed not only for the first color but also for the second color and third color scans. The scans for other colors are also shown in FIGS. This is performed in the same manner as in the first color scan. When the processing performed in accordance with these three color scans ends (when the processing in FIGS. 6 and 7 loops three times with different colors), the processing of the priority control program 301 ends.

  As described above, the MFP 200 causes the NCU 18 (line connection control unit) to shift to the line unconnected state and the modem 17 (transmission / reception means) in the middle of color scanning according to the priority control program 301. Is provided with a CPU 10 (control means) that shifts the modem 17 to the transmission / reception standby state at the end of the color scan.

Therefore, at the time of color scanning, while preventing the competition between the scanning operation and the facsimile operation, the NCU 18 (line connection control unit) also makes an incoming call at the time of color scanning so that the facsimile reception is performed immediately upon completion of the color scanning. Can do.
Therefore, it is possible to efficiently perform the color scan process while reducing the waiting time for facsimile reception.

Next, a multifunction peripheral 300 according to the third embodiment will be described with reference to FIG.
The multifunction machine 300 includes a double-sided monochrome scanner 303 of a switchback type. Other configurations are the same as those of the multi-function device 100 according to the first embodiment, and the multi-function devices 100 and 300 differ only in the configuration of the scanner. Hereinafter, the same reference numerals are used for the same parts in both the multifunction peripherals 100 and 300, and the description of the parts is omitted.

The multifunction device 300 includes three priority control programs 401, 501, and 601.
Here, the CPU 10 controls the multifunction peripheral 300 based on any one of the priority control programs 401, 501, and 601. Based on which priority control program, the control operation of the CPU 10 can be performed by a user input operation on the operation unit 2.
Hereinafter, the control operation of the CPU 10 when the priority control programs 401, 501, and 601 are switched will be described in three embodiments.

The operation procedure of the multifunction machine 300 based on the priority control program 401 will be described with reference to FIG.
The priority control program 401 is a program for controlling the CPU 10 so that the scanning operation is prioritized when the scanning operation and the facsimile reception compete in the communication terminal device including the double-sided monochrome scanner 303 of the switchback method.
This will be described in detail below.

Step S41 means that a series of processes of double-sided scanning of the switchback method has been started under the control based on the priority control program 401.
Here, in the double-sided scan of the switchback method, the original is first read on one side while being transported by the automatic document transport device, then once transported to the discharge tray side, and then switched back to the other side. Is read and conveyed to a paper discharge tray. That is, the series of processes of the switchback type double-sided scanning includes document conveyance processing in addition to the first-side scanning and the second-side scanning.

  When a series of switchback-type duplex scanning processes is started, the CPU 10 shifts the NCU 18 to a line connection state between the multi-function apparatus 300 and the virtual caller (step S42).

  In step S43, it is determined whether or not a series of double-sided scanning has been completed. If it is determined that the process has been completed, the NCU 18 is released from the line connection state and controlled to be ready for facsimile reception. (Step S44).

  When a call is made to the multi-function device 300 after the line connection state of the NCU 18 is canceled in step S44, the NCU 18 that has received the call signal receives the call source communication terminal device and the multi-function device 300. Line connection. That is, facsimile reception is performed based on the normal procedure shown in FIG.

  As described above, the MFP 300 sets the NCU 18 (line connection control unit) to the line connection state with the virtual communication terminal device during execution of a series of operations related to double-sided reading according to the priority control program 401. CPU 10 (control means) is provided.

  For this reason, during the execution of a series of operations related to double-sided scanning, even if there is a call from another communication terminal device, the incoming call is not detected by the NCU 18. Will not compete. Moreover, since the duplex scanning operation and the facsimile reception are alternatively selected and the processing is executed by the communication terminal device, the configuration of the communication terminal device is not complicated.

  Note that the multifunction peripheral 300 according to the third embodiment is a monochrome scanner as a switchback double-sided scanner, but is not limited to this configuration. A color scanner may be used as long as it is a switchback type double-sided scanner.

The operation procedure of the multifunction machine 300 based on the priority control program 501 will be described with reference to FIG.
The priority control program 501 is a program for controlling the CPU 10 so that the surface scanning operation is prioritized when scanning of each surface conflicts with facsimile reception in a communication terminal device including the double-sided monochrome scanner 303 of the switchback method. is there.
This will be described in detail below.

  Step S51 means that scanning of the first side is started out of scanning on both sides under the control based on the priority control program 501.

  When the scan of the first surface is started, the CPU 10 shifts the NCU 18 to a line connection state between the multifunction device 300 and the virtual caller (step S52).

  Then, in step S53, it is determined whether or not the scan of the first side has been completed. If it is determined that the scan has been completed, the line connection state of the NCU 18 is canceled and the incoming call is controlled. (Step S54).

When the line connection state of the NCU 18 is canceled, it is determined in the NCU 18 whether or not there is an incoming call from another communication terminal device (step S55).
If there is an incoming call, the facsimile reception is started (step S56), and when the completion of the facsimile reception is confirmed (step S57), the processing of the priority control program 501 performed in accordance with the scan of the first surface is completed. To do.
If there is no incoming call, it is determined whether or not a predetermined waiting time (for example, about 10 to 30 seconds) has elapsed (step S58). This determination is made based on the output signal from the timer that counts the elapsed time from the point when the scan of the first surface in step S53 is completed. Until the predetermined waiting time elapses, the determination in step S55 is repeated, and if there is no incoming call even after the predetermined waiting time elapses, the priority control program 501 executed along with the scan of the first surface is executed. Processing ends.

FIG. 5 illustrates only the processing of the priority control program 501 that is performed along with the scan of the first surface.
The processing of the priority control program 501 is performed not only on the first surface (front surface) but also on the second surface (back surface), but when scanning other surfaces, the processing of the first surface shown in FIG. This is performed in the same manner as in the case of scanning.
When the processing performed in accordance with these double-sided scanning is completed (when the processing in FIG. 10 is looped twice while changing the surface), the processing of the priority control program 501 is completed.

  As described above, the MFP 300 sets the NCU 18 (line connection control unit) to a line connection state with the virtual communication terminal device while reading each surface in accordance with the priority control program 501, and A CPU 10 (control means) is provided for bringing the line connection control unit into a line unconnected state when the surface is not read.

  For this reason, it is possible to efficiently perform the duplex scanning process while reducing the waiting time for facsimile reception.

The operation procedure of the multifunction machine 300 based on the priority control program 601 will be described with reference to FIGS.
Similarly to the priority control program 501, the priority control program 601 gives priority to the surface scan operation when the scanning of each surface and the facsimile reception compete in the communication terminal device including the switchback double-sided monochrome scanner 303. It is a program for controlling the CPU 10 as described above.
This will be described in detail below.

Step S61 means that, under the control based on the priority control program 601, scanning of the first surface (for example, the front surface) among the scanning of the front and back surfaces is started.
When the scan of the first surface is started, the CPU 10 shifts the NCU 18 to a line connection state between the multifunction device 300 and the virtual caller (step S62).

Next, in step S63, it is determined whether or not the execution time of the first surface scan has reached a predetermined scan time.
Here, the predetermined scan time is a time set according to the end point of the scan of the first surface. By determining whether or not the predetermined scan time has been reached, a time point that is, for example, 15 seconds prior to the end point of the first surface scan is specified. This predetermined scan time is a time having the same role as the predetermined scan time in the priority control program 301 described above.
In general, monochrome scanning requires a smaller amount of data to be read than color scanning, so scanning is completed in a short time. Therefore, the monochrome scan may end within 15 seconds. Here, a case where monochrome scanning at a high resolution is performed is particularly considered. If the monochrome scan is completed within 15 seconds, the process immediately proceeds to step S64 as determined in step S63. In other words, this means that the NCU 18 is not actually controlled in the line connection state and is kept in the line unconnected state.

When a predetermined scan time has elapsed in step S63, the line connection state of the NCU 18 is canceled and the incoming call is controlled (step S64).
In addition, the modem 17 is controlled to a transmission / reception pause state (step S65). Here, the reason why the modem 17 is set in the dormant state is to prevent a conflict between the scanning operation and the facsimile reception as described above.

After step S65, it is determined whether or not scanning of the first surface has been completed (step S66). This determination is repeated until it is confirmed that the first surface has been scanned.
When it is confirmed that the scanning of the first surface has been completed, the modem 17 is controlled to a transmission / reception standby state (step S67).

Next, in step S68, it is determined whether or not the NCU 18 has received a call during the modem suspension time from the end of step 64, that is, from the time when the NCU 18 returns to the line unconnected state to the determination time of step S68. Is done.
If there is an incoming call, the modem 17 immediately receives a facsimile (step S69). When the end of facsimile reception is confirmed (step S70), the processing of the priority control program 601 that is performed along with the scanning of the first surface is completed.
Here, the reason why the scan time is set, for example, 15 seconds before the end of the scan of the first surface is the same as in the case of the priority control program 301. By setting the time to 15 seconds or less, the communication terminal device on the calling side is automatically disconnected and the effect of waiting for facsimile reception while maintaining the line connection state is prevented from being lost. is there.

Further, when there is no incoming call during the modem suspension time, the processing of the priority control program 601 that is performed along with the scan of the first surface is finished.
If there is an incoming call before step S67, facsimile reception is immediately performed when the modem 17 returns to the transmission / reception standby state in step S68. That is, the process of step S68 is added to FIGS. 11 and 12 for convenience of explanation.

11 and 12 also show only the processing of the priority control program 601 that is performed along with the scan of the first surface.
The processing of the priority control program 601 is performed not only for the first surface (front surface) but also for the second surface (rear surface), but it is shown in FIGS. 11 and 12 when scanning other surfaces. This is performed in the same manner as in the case of scanning the first surface. When the processing performed in accordance with the scanning of these two surfaces is completed (when the processing in FIGS. 11 and 12 is looped twice with different surfaces), the processing of the priority control program 601 is terminated.

  As described above, the MFP 300 causes the NCU 18 (line connection control unit) to shift to the line unconnected state in accordance with the priority control program 601, and at the same time, the modem 17 ( A CPU 10 (control means) is provided that shifts the transmission / reception means) to the sleep state and shifts the modem 17 to the transmission / reception standby state at the end of reading of each surface.

For this reason, at the time of double-sided scanning, the NCU 18 (line connection control unit) can also receive a facsimile immediately upon completion of the surface scanning while preventing competition between the scanning operation and the facsimile operation. Can do.
Therefore, it is possible to efficiently perform the duplex scanning process while reducing the waiting time for facsimile reception.

In the above, it is assumed that the priority control programs 401, 501, and 601 relating to the double-sided scan in the switchback method are applied to the multifunction peripheral 300 including the double-sided monochrome scanner 300.
The application target of the priority control programs 401, 501, and 601 is not limited to a communication terminal device including a monochrome scanner, and may be a color scanner. In particular, in the case of a communication terminal apparatus including a color scanner, the priority control program 101 may be applied simultaneously in addition to any of the priority control programs 401, 501, and 601. Further, in the case of a communication terminal device equipped with a color sequential color scanner, in addition to any of the priority control programs 401, 501, and 601, any one of the priority control programs 201 and 301 can be applied simultaneously. Also good.

FIG. 2 is a block diagram illustrating a control configuration of the multifunction peripheral 100 according to the first embodiment. The flowchart explaining a facsimile reception process. 5 is a flowchart showing an operation procedure of the multifunction peripheral 100 based on the priority control program 101. The block diagram which shows the control structure of the multifunctional machine 200 which is 2nd embodiment. 6 is a flowchart showing a part of an operation procedure of the multifunction peripheral 200 based on the priority control program 201. 10 is a flowchart showing a part of an operation procedure of the multifunction peripheral 200 based on the priority control program 301. 10 is a flowchart showing a part of an operation procedure of the multifunction peripheral 200 based on the priority control program 301. The block diagram which shows the control structure of the multifunctional machine 300 which is 2nd embodiment. 5 is a flowchart showing a part of an operation procedure of the multifunction peripheral 300 based on a priority control program 401. 5 is a flowchart showing a part of an operation procedure of the multifunction peripheral 300 based on a priority control program 501. 6 is a flowchart showing a part of an operation procedure of the multifunction peripheral 300 based on the priority control program 601. 6 is a flowchart showing a part of an operation procedure of the multifunction peripheral 300 based on the priority control program 601.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Multifunction machine 2 Operation part 4 Image recording part 10 CPU
12 ROM
13 RAM
14 Image memory 15 Codec 17 Modem 18 NCU
20 Display Unit 103 Line Sequential Color Scanner 203 Frame Sequential Color Scanner 303 Switchback Double-sided Monochrome Scanner

Claims (6)

A communication terminal device comprising a color scanner and a line connection control unit to an external line,
During a series of operations related to color scanning, the line connection control unit is provided with a control means for setting a line connection state with the virtual communication terminal device.
A communication terminal device. A communication terminal apparatus comprising a color sequential color scanner that individually reads each color of RGB and a line connection control unit to an external line,
A control means is provided for setting the line connection control unit during the color scan of each color to a line connection state with the virtual communication terminal device, and setting the line connection control unit to the line non-connection state during non-scanning of each color.
A communication terminal device. A transmission / reception means for transmitting / receiving data via an external line;
The control means includes
In the middle of the color scan, the line connection control unit is shifted to the line unconnected state, and the transmission / reception unit is shifted to a dormant state, and at the end of the color scan, the transmission / reception unit is shifted to a transmission / reception standby state.
The communication terminal device according to claim 2. A communication terminal device comprising a double-sided reading means with switchback and a line connection control unit to an external line,
During execution of a series of operations related to double-sided reading, the line connection control unit is provided with a control means for setting a line connection state with a virtual communication terminal device.
A communication terminal device. A communication terminal device comprising a double-sided reading means with switchback and a line connection control unit to an external line,
Control means is provided for setting the line connection control unit to be in a line connection state with a virtual communication terminal device while reading each surface, and for setting the line connection control unit to a line non-connection state when not reading each surface. ,
A communication terminal device. A transmission / reception means for transmitting / receiving data via an external line;
The control means includes
In the middle of reading each surface, the line connection control unit shifts to the line unconnected state, and the transmission / reception means shifts to a dormant state. To move to
The communication terminal device according to claim 5.

Images