JP3927718B2 - Facsimile device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a facsimile apparatus having a time designation transmission function for performing facsimile transmission at a designated time, and in particular, a facsimile apparatus capable of starting time designation transmission at a designated time without being hindered by direct transmission, and transmission The present invention relates to a facsimile machine or the like that can promptly notify the sender of the failure when the user fails.
[0002]
[Prior art]
Conventionally, various facsimile apparatuses having a time designation transmission function for performing facsimile transmission at a designated time have been provided.
For example, in a facsimile apparatus disclosed in Japanese Patent Laid-Open No. 5-83461, a time designation transmission unit that reads and transmits an image on a set original at a designated time, and the original is set at the designated time. And a document detection means for detecting whether or not the document has been set, and when a document is not set at a designated time, the transmission operation is extended for a certain period of time.
Further, the facsimile apparatus disclosed in Japanese Patent Application Laid-Open No. 5-110725 includes display means for displaying all time-designated transmission setting data instructed for time-designated transmission and waiting for transmission. A desired one is selected from the setting data, and immediate transmission can be performed with a simple operation before the designated time is reached.
In the facsimile apparatus disclosed in Japanese Patent Laid-Open No. 6-85953, the other party terminal number and various setting values are registered in the card, and the contents of the card are recognized by the facsimile apparatus body, thereby eliminating troublesome operations. In this way, it is possible to perform timed transmission without any operation mistakes.
Further, in the facsimile apparatus disclosed in JP-A-6-291878, when registering a destination number corresponding to a one-touch dial, abbreviated dial, etc., a transmission start time is also input to set a time designation transmission, If a destination is specified with a one-touch dial or abbreviated dial when reading a document, it is determined whether or not timed transmission is set for the destination, and if it is set, the transmission start time is reached. To start calling.
[0003]
[Problems to be solved by the invention]
  However, in any of the above conventional techniques, if transmission is started by direct transmission immediately before the designated transmission start time, time-designated transmission can be started until the transmission by the direct transmission is completed. Therefore, there is a problem that the transmission start time is delayed from the specified time..ThereforeThe present inventionTo provide a facsimile machine capable of starting time-designated transmission at a designated time without being hindered by direct transmissionthe purposeAnd
[0004]
[Means for Solving the Problems]
  In order to solve the above-mentioned problem, in the invention according to claim 1, in the facsimile apparatus provided with the time designation transmission means for starting the transmission of the time designation transmission file at the designated time, the time designation transmission file waiting for transmission is When there is a time management means for determining whether or not the time immediately before a specified time before the specified transmission time of the transmission file has been reached, and when the time management means determines that the previous time has been reached, direct transmission is performed. Transmission management means prohibitingDisplay means for displaying a message to switch to memory transmission when direct transmission is prohibited by the transmission management means;WithWhen direct transmission is prohibited, storage of image information in the image memory is started when memory transmission is instructed, and the specified image information is transmitted to the destination when the specified time comes. did.
[0006]
  With the configuration as described above, in the facsimile apparatus according to claim 1, when there is a time-designated transmission file waiting for transmission, direct transmission is performed when the previous time reaches a predetermined time before the transmission designation time of the transmission file.Ban,A message for requesting switching to memory transmission is displayed on the display means. When memory transmission is instructed, accumulation of image information in the image memory is started, and when the designated time is reached, the designated image information is transmitted to the destination. Since there is no other transmission being performed, it becomes possible to start transmission at a specified time.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a functional block diagram showing the configuration of a facsimile apparatus according to each embodiment of the present invention. As shown in the figure, this facsimile apparatus includes a time management unit (time management unit) 1, a transmission management unit (transmission management unit) 2, a system control unit 3, a G3 communication control unit 4, a G4 communication control unit 5, a RAM 6, an image. A memory 7, a display unit 8, an operation unit 9, a scanner 10, a plotter 11, a CPU 12 for energy saving mode, and the like are provided.
The time management unit 1 has a built-in clock circuit that outputs the current time, and performs management of the transmission designated time and determination of whether or not the previous time has reached a predetermined time before the designated transmission time.
The transmission management unit 2 transmits a time-designated transmission file that has reached the designated transmission time, or prohibits direct transmission when the time immediately before the designated transmission time is reached.
The G3 communication control unit 4 incorporates a modem and a network control unit (NCU), and performs facsimile transmission / reception via the public telephone line network according to the G3 transmission control procedure via these. The G4 communication control unit 5 performs facsimile transmission / reception in accordance with the G4 transmission control procedure via a terminal device connected to the ISDN.
The RAM 6 is a memory for temporarily storing image information and other various data. The RAM 6 is also used as a work memory when the CPU in the system control unit 3 performs various processes.
The image memory 7 is a memory of much larger capacity than the RAM 6 in which image information to be transmitted and received image information are stored.
The display unit 8 includes a display panel using an LCD or the like, and displays a message or the like shown to the user on the screen of the display panel. The display unit 8 and the system control unit 3 constitute display means.
[0009]
The operation unit 9 is an input device having various keys for the user to give instructions to the facsimile machine.
The scanner 10 is an input device that optically reads an image on a document and inputs it as image information.
The plotter 11 is an output device that outputs the decoded received image information to a recording sheet.
The CPU 12 for energy saving mode performs system control instead of the system control unit 3 in the energy saving mode.
Although the time management unit 1 and the transmission management unit 2 each have a ROM and a CPU, they may be shared with the system control unit 3.
When the facsimile apparatus configured as described above transmits a facsimile by immediate transmission using, for example, the G3 transmission control procedure, the system control unit 3 first reads the image information into the RAM 6 by the scanner 10, and the image information is stored in the system. The data is encoded by the encoding means in the control unit 3 and stored in the RAM 6 or the image memory 7. In addition, the system control unit 3 obtains transmission time designation information such as a destination designated by the operation unit 9, and the NCU in the G3 communication control unit 4 to which the destination information is passed sets a call with the designated destination. . Subsequently, the G3 communication control unit 4 executes phase B via the low-speed modem, and then moves to phase C, where the encoded image information in the RAM 6 or the image memory 7 is modulated by the high-speed modem, and then via the NCU. And send it out.
At the time of reception, the NCU sets up a call and then enters phase B, performs predetermined communication via a low-speed modem, enters phase C, and receives encoded image information. Then, the image information is stored in the RAM 6 via the G3 communication control unit 4, further decoded by the decoding means in the system control unit 3, and output to the plotter 11 via the RAM 6 or stored in the image memory 7. .
[0010]
The operation of each embodiment will be described below.
FIG. 2 is an operation flowchart showing the first embodiment of the present invention. As shown in the figure, in this embodiment, the transmission management unit 2 constantly monitors whether or not the time-designated transmission file waiting for transmission is accumulated in the image memory 7 (S1 → S1). When performing time-designated transmission, the user instructs the operation unit 9 that time-designated transmission is performed, and instructs the transmission time, destination terminal number, transmission line density, G3 transmission or G4 transmission, and the like. Since the system control unit 3 acquires these information and writes the above information in the time-designated transmission file table as shown in FIG. 3, the transmission management unit 2 refers to this time-designated transmission file table to determine the time-designated transmission file. It is determined whether or not it is stored in the image memory 7.
In addition, when writing to the time-designated transmission file table, the transmission image information is read by the scanner 10, and the image information is stored in the image memory 7 by the system control unit 3. The file number shown in FIG. 3 is the file number of the time-designated transmission file composed of the image information, and is given by the file management means in the system control unit 3. In the transmission line density shown in FIG. 3, “S” indicates a standard line density, and “D” indicates a double line density.
[0011]
In this way, if it is determined that the time-designated transmission file is accumulated (Yes in S1), the transmission management unit 2 monitors whether or not a direct transmission operation has been performed by the operation unit 9 (S2 → S2). For example, it is monitored whether or not the start key is pressed without inputting an instruction relating to memory transmission. When a direct transmission operation is detected (Yes in S2), the transmission management unit 2 instructs the time management unit 1 to determine whether or not the time just before a predetermined time (set time, for example, 3 minutes) has arrived from the designated transmission time. Is determined (S3). The predetermined time is set in advance in the RAM 6 or flash memory (not shown), and the time management unit 1 obtains the earliest transmission time from the time-designated transmission file table upon receiving an instruction, The immediately preceding time obtained by subtracting the predetermined time is obtained, and it is determined whether or not the current time output from the built-in clock circuit has reached the immediately preceding time.
As a result, if it is determined that the previous time has been reached (Yes in S3), the transmission management unit 2 prohibits (does not execute) the direct transmission that the user tried to perform, and requests to switch to memory transmission. The message is displayed on the display unit 8 (S4). Then, when the user instructs the memory transmission, the system control unit 3 starts the memory transmission operation (S5). That is, the system control unit 3 stores the image information read by the scanner 10 in the image memory 7 at that time, and reads the image information of the time-designated transmission file when the transmission designation time of the time-designated transmission is reached. To the destination. Furthermore, the record that has been transmitted (one line in the table of FIG. 3) is deleted from the time-designated transmission file table.
On the other hand, if it is determined that the previous time has not been reached (No in S3), the system control unit 3 starts direct transmission (S6).
As described above, according to the first embodiment, since another transmission is not performed when attempting to start the time-designated transmission, the probability of transmission at the designated time is increased. In the above embodiment, the time management unit 1 may determine whether or not the previous time has been reached prior to the instruction from the transmission management unit 2.
[0012]
FIG. 4 is an operation flowchart showing the second embodiment of the present invention. In the facsimile apparatus of this embodiment, when there are a plurality of time-designated transmission files with the same transmission time designated, when transmitting them, the transmission means together with the communication control means such as the G3 communication control unit 4 or the G4 communication control unit 5 Is transmitted first from the time-designated transmission file having a large number of pages.
As shown in FIG. 4, in this embodiment, when the user operates the operation unit 9 or periodically enters the operation flow, the system control unit 3 first sends a time designation transmission by the user. It is determined whether or not is selected (S11). If it is determined that time-designated transmission is selected (Yes in S11), the system control unit 3 inputs destination (destination) information (S12), further sets a transmission time (S13), and starts from the document. Image reading is started (S14).
Subsequently, the system control unit 3 refers to the time designation transmission file table to determine whether or not there is a time designation transmission file having the same transmission time as the transmission time (S15). If it is determined that there is a time-designated transmission file with the same transmission time (Yes in S15), the number of pages is compared between transmission files with the same transmission time (S16). For example, when the read image information is received, the system control unit 3 writes the page number in the time-designated transmission file table (see FIG. 5), and compares the page number with reference to the time-designated transmission file. It is. Furthermore, the system control unit 3 sets the transmission order in the transmission file at the same transmission time as the order of page number, and writes a number indicating the transmission order in the time-designated transmission file table (see FIG. 5A).
Subsequently, the time management unit 1 compares the earliest transmission time in the time-designated transmission file table with the current time (S17), and if the current time has not reached the transmission time (No in S18), the process returns to step S11. Then, if there is a new time-designated transmission instruction (Yes in S11), step S12 and subsequent steps are repeated, and if there is a transmission file with the same transmission time (Yes in S15), the page numbers are compared (S16), and the transmission order is updated. (See FIG. 5B).
[0013]
If it is determined in step S11 that the time designation transmission is not selected, and if it is determined in step S15 that the time designation transmission is not the same time, the process proceeds to step S17.
Further, the facsimile apparatus of this embodiment performs multitask processing, and moves to a task such as immediate transmission processing or reception processing in the middle of this operation flow, or returns to this operation flow.
Thus, when the designated transmission time is reached (Yes in S18), if there are a plurality of time designated transmission files designated at that time, the transmission order set in the time designation transmission file table, that is, the number of pages is set. Image information of a plurality of transmission files is transmitted in descending order (S19).
As described above, according to the second embodiment of the present invention, when there are a plurality of time-designated transmission files having the same transmission time, when the files are transmitted, the transmission files having the largest number of pages are sequentially ordered, that is, in the image memory 7. Since the free space is transmitted in a short time in the order that can be increased, the image memory 7 can be used efficiently. In the above-described embodiment, when there are a plurality of items on the same page, the transmission order among them is, for example, the reading order.
[0014]
FIG. 6 is an operation flowchart showing the third embodiment of the present invention. In the facsimile apparatus of this embodiment, when there are a plurality of time-designated transmission files designated at the same transmission time, the time-designated transmission file having a large amount of data is transmitted first.
At that time, as shown in FIG. 6, first, the system control unit 3 determines whether or not the time designation transmission is selected by the user (S21). If time-designated transmission is selected (Yes in S21), the system control unit 3 inputs destination (destination) information (S22), further sets a transmission time (S23), and images from the document. Reading is started (S24).
Subsequently, the system control unit 3 refers to the time designation transmission file table to determine whether or not there is a time designation transmission file having the same transmission time as the transmission time (S25). If it is determined that there is a time-designated transmission file with the same transmission time (Yes in S25), the data amount is compared between transmission files with the same transmission time (S26). For example, when the read image information is received or encoded, the system control unit 3 writes the data amount in the time-designated transmission file table and compares the data amount with reference to the time-designated transmission file. It is. Furthermore, the system control unit 3 sets the transmission order in the transmission file at the same transmission time as the order of data volume, and writes a number indicating the transmission order in the time-designated transmission file table.
Subsequently, the time management unit 1 compares the earliest transmission time in the time-designated transmission file table with the current time (S27), and if the current time has not reached the transmission time (No in S28), the process returns to step S21. If there is a new time-designated transmission instruction (Yes in S21), step S22 and subsequent steps are repeated, and if there is a transmission file with the same transmission time (Yes in S25), the data amounts are compared (S26), and the transmission order is updated. To do.
If it is determined in step S21 that the time designation transmission is not selected, and if it is determined in step S25 that the time designation transmission is not the same time, the process proceeds to step S27.
Further, the facsimile apparatus of this embodiment performs multitask processing, and moves to a task such as immediate transmission processing or reception processing in the middle of this operation flow, or returns to this operation flow.
In this way, when the designated transmission time is reached (Yes in S28), if there are a plurality of time designated transmission files designated at that time, the transmission order, that is, the amount of data set in the time designation transmission file table is set. Image information of a plurality of transmission files is transmitted in descending order (S29).
Thus, according to the third embodiment of the present invention, when there are a plurality of time-designated transmission files having the same transmission time, the free space of the image memory 7 is reduced in a short time in order from the transmission file with the largest amount of data. In addition, the image memory 7 can be used efficiently because it is transmitted in the order in which it can be increased more.
[0015]
FIG. 7 is an operation flowchart showing the fourth embodiment of the present invention. In the facsimile apparatus of this embodiment, there are a plurality of time-designated transmission files designated at the same transmission time, and if there are one designated by G3 transmission control procedure and one designated by G4 transmission control procedure, G4 It is sent first from the time-designated transmission file designated by the transmission control procedure.
At that time, as shown in FIG. 7, first, the system control unit 3 determines whether or not the time designation transmission is selected by the user (S31). If it is determined that the time-designated transmission has been selected (Yes in S31), the system control unit 3 inputs the destination (destination) information (S32), and further sets the transmission time (S33). Image reading is started (S34).
Subsequently, the system control unit 3 refers to the time designation transmission file table to determine whether or not there is a time designation transmission file having the same transmission time as the transmission time (S35). If it is determined that there is a time-designated transmission file with the same transmission time (Yes in S35), the time-designated transmission file table is referred to (see FIG. 3) and the G3 transmission control procedure is designated in the transmission file. It is determined whether or not both of the G4 transmission control procedure designation are present (S36).
As a result, if it is determined that only one transmission control procedure is designated (No in S36), the time management unit 1 compares the earliest transmission time in the time designation transmission file table with the current time (S37). If the current time has not reached the transmission time (No in S38), the process returns to step S31. If there is a new time-designated transmission instruction (Yes in S31), steps S32 and after are repeated.
[0016]
If it is determined in step S31 that the time designation transmission is not selected, and if it is determined in step S35 that the time designation transmission is not the same time, the process proceeds to step S37.
In this way, when the designated transmission time is reached (Yes in S38), if there are a plurality of time designation transmission files designated at that time, for example, in order of reading time (this can be determined from the file number). The image information of a plurality of transmission files is transmitted to (S39).
On the other hand, if it is determined in step S36 that there are both transmission control procedures (Yes in S36), the time management unit 1 compares the earliest transmission time in the time-designated transmission file table with the current time (S40). If the current time has not reached the transmission time (No in S41), the process returns to step S31. If there is a new time-designated transmission instruction (Yes in S31), steps S32 and after are repeated.
In this way, when the designated transmission time is reached (Yes in S41), if there are a plurality of time designation transmission files designated by the G4 transmission control procedure, the image information is transmitted, for example, in order of the reading time, If there are a plurality of time-designated transmission files designated by the G3 transmission control procedure, the image information is transmitted in ascending order of reading time (S42).
As described above, according to the fourth embodiment of the present invention, there are a plurality of time-designated transmission files having the same transmission time, and among them, there are G3 transmission control procedure designation and G4 transmission control procedure designation. In this case, since the G4 transmission control procedure-designated time-designated transmission file capable of high-speed transmission is transmitted first, the free space of the image memory 7 can be increased in a short time, and thus the image memory 7 can be efficiently used. Can be used.
[0017]
FIG. 8 is an operation flowchart showing the fifth embodiment of the present invention. In the facsimile apparatus of this embodiment, when there are a plurality of time-designated transmission files designated at the same transmission time, message output means for displaying a message prompting to make a different transmission time from the next time is displayed as the system control unit 3. Part 8. The operation is as follows.
First, the system control unit 3 determines whether or not the time designation transmission is selected by the user (S51). If the time-designated transmission is selected (Yes in S51), the system control unit 3 inputs destination (destination) information (S52), further sets the transmission time (S53), and images from the document. Reading is started (S54).
Subsequently, the system control unit 3 refers to the time designation transmission file table to determine whether or not there is a time designation transmission file having the same transmission time as the transmission time (S55). If it is determined that there is a time-designated transmission file with the same transmission time (Yes in S55), the system control unit 3 causes the display unit 8 to display a message requesting to set another transmission time next time ( S56).
[0018]
Thereafter, the time management unit 1 compares the earliest transmission time in the time-designated transmission file table with the current time (S57), and if the current time has not reached the transmission time (No in S58), the process returns to step S51. If there is a new time designation transmission instruction (Yes in S51), Step S52 and the subsequent steps are repeated.
If it is determined in step S51 that the time designation transmission is not selected, and if it is determined in step S55 that the time designation transmission is not the same time, the process proceeds to step S57.
Thus, when the designated transmission time is reached (Yes in S58), the system control unit 3 uses the G3 communication control unit 4 or the G4 communication control unit 5 to store the time designated transmission file designated at that time. The image information is transmitted (S59). At this time, if there are a plurality of transmission files at the same transmission time, they are transmitted in the reading order or the order in which the free space of the image memory 7 increases more in a short time.
As described above, according to the fifth embodiment of the present invention, when there are a plurality of time-designated transmission files designated at the same transmission time, a message prompting to make a different transmission time from the next time is displayed. From the next time, it can be transmitted at the transmission time as intended by the user.
[0019]
FIG. 9 is an operation flowchart showing the sixth embodiment of the present invention. In the facsimile apparatus of this embodiment, when the destination and the transmission time are designated, the display means for displaying the incoming side arrival time if the destination is overseas is constituted by the system control unit 3 and the display unit 8, The transmission time changing means for enabling the change of the designated transmission time when the incoming time is displayed by the display means is constituted by the system control unit 3, the display unit 8, and the operation unit 9. The operation is as follows.
First, the system control unit 3 determines whether or not the time designation transmission is selected by the user (S61). If it is determined that the time-designated transmission has been selected (Yes in S61), the system control unit 3 inputs destination (destination) information (S62), further sets the transmission time (S63), and starts from the document. Start image reading.
Subsequently, the system control unit 3 determines whether or not the destination (destination) is overseas (S64). If it is not overseas (No in S64), then the time management unit 1 is the most in the time designation transmission file table. The earlier transmission time and the current time are compared (S65), and if the current time has not reached the transmission time (No in S66), the process returns to step S61. If there is a new time-designated transmission instruction (Yes in S61), step S62 and subsequent steps are repeated.
[0020]
When it is determined in step S61 that the time designation transmission is not selected, the process proceeds to step S65.
Thus, when the designated transmission time is reached (Yes in S66), the system control unit 3 uses the G3 communication control unit 4 or the G4 communication control unit 5 to store the time designated transmission file designated at that time. The image information is transmitted (S67). At this time, if there are a plurality of transmission files having the same transmission time, they are transmitted in the reading order, for example.
On the other hand, if it is determined in step S64 that the destination is overseas (Yes in S64), the system control unit 3 obtains the time difference from the destination with reference to the regional time difference table or the like (S68), and the incoming call is received on the incoming side. Calculate the time. Then, the incoming time is displayed on the display unit 8 (S69).
In this way, a place for instructing whether or not the displayed arrival time is acceptable is provided to the user, and when the reception time is determined to be negative (No in S70), the user newly operates the operation unit 9. A correct transmission time is input (S71). Then, the system control unit 3 acquires the transmission time, calculates the corrected incoming time, and displays the incoming time (S69). On the other hand, if the first displayed incoming time or the corrected displayed incoming time is acceptable (Yes in S70), the process proceeds to step S65.
As described above, according to the fifth embodiment of the present invention, when the time-designated transmission addressed to the foreign country is instructed, the arrival time at the receiving side is displayed. You can change the specified time.
[0021]
FIG. 10 is an operation flowchart showing the seventh embodiment of the present invention. In this embodiment, the system control unit 3, the transmission management unit 2, the G3 communication control unit 4 and the G4 communication control unit 5 succeeds in transmission when the recalling means, that is, transmission at a specified time fails. A means for repeating the re-call (re-dial) a predetermined number of times is configured. Further, the system control unit 3 and the display unit 8 constitute notification means, that is, means for informing that when the transmission is not successful even after a predetermined number of re-calls. In this case, the interval between re-calls, that is, the time from the call to the next call can be set arbitrarily. The operation is as follows.
First, the system control unit 3 determines whether or not the time designation transmission is selected by the user (S81). If it is determined that the time-designated transmission is selected (Yes in S81), a transmission interval setting process is performed (S82). In the transmission interval setting process, the system control unit 3 displays a screen for setting the calling interval at the time of redialing the time-designated transmission file on the display unit 8 and prompts the sender to set the re-calling interval. When the recalling interval is set, reading of the transmission original by the scanner 10 is started, and the read image information is stored in the image memory 7 as a time designation transmission file (S83).
[0022]
Thereafter, the current time is compared with the designated time (S84), and if the current time matches the designated time (Yes in S84), the number of transmissions is counted up (S85), and the G3 communication control unit 4 is activated for file transmission. To start transmission of the time-designated transmission file (S86).
Thereafter, the system control unit 3 determines whether or not the communication is normally completed (S87). When the communication is normally completed (Yes in S87), a transmission result report is generated and output from the plotter 11 (S89). . The transmission result report at this time describes the transmission completion time, the destination, the number of pages, and the like.
On the other hand, if the communication has not ended normally (No in S87), the number of redials (predetermined number) preset in the facsimile machine and the number of redials performed on the time designation file (the number of counts in S85− 1) (S88) and if the specified number of times has not been reached (Yes in S88), the value of the re-calling interval (transmission interval) set in step S82 is read (S90), and the previous communication is terminated (not completed). After the re-call interval time elapses from (end by end), the number of transmissions is counted up (S85), and redialing is performed (S86).
If the communication does not end normally when the number of redials reaches the specified number (No in S87, No in S88), a plotter 11 reports a transmission result report stating that the time designation file has not been reached. (S91).
As described above, in this embodiment, since it is possible to arbitrarily set the interval of re-calling (redial) when transmission cannot be performed at a specified time, for example, the sender always transmits to the other party at that time. If the transmission time is specified in the daytime (the time period when the line usage fee is relatively high) because the user wants to do so, the time until the notification means is activated is shortened by setting the re-calling interval short. Therefore, it is possible to inform the sender that the transmission has failed before the remaining time has elapsed from the specified time. On the other hand, if the transmission time is specified at night (a time period when the line usage fee is relatively low) for reasons such as reducing communication costs, a notification means can be established by setting a longer repeat call interval. Since it takes a long time to activate, that is, the time until the time-designated transmission becomes invalid, it is possible to facilitate transmission by re-calling.
[0023]
FIG. 11 is an operation flowchart showing the eighth embodiment of the present invention. In this embodiment, the system control unit 3, the transmission management unit 2, the G3 communication control unit 4 and the G4 communication control unit 5 succeeds in transmission when the recalling means, that is, transmission at a specified time fails. A means for repeating the re-call (re-dial) a predetermined number of times is configured. Further, the system control unit 3 and the display unit 8 constitute notification means, that is, means for informing that when the transmission is not successful even after a predetermined number of re-calls. In this case, the number of re-calls (the number of redials) can be set arbitrarily. The operation is as follows.
First, the system control unit 3 determines whether or not the time designation transmission is selected by the user (S101). If it is determined that time-designated transmission has been selected (Yes in S101), call number designation processing is performed (S102). In the calling number designation process, the system control unit 3 displays a screen for setting the number of redials of the time designation transmission file on the display unit 8 and prompts the sender to set the number of redials. When the redial count is set, reading of the transmission original by the scanner 10 is started, and the read image information is stored in the image memory 7 as a time designation transmission file (S103).
Thereafter, the current time is compared with the designated time (S104), and if the current time matches the designated time (Yes in S104), the number of transmissions is counted up (S105), and the G3 communication control unit 4 is activated for file transmission. To start transmission of the time-designated transmission file (S106).
Thereafter, the system control unit 3 determines whether or not the communication is normally completed (S8107), and when the communication is normally completed (Yes in S107), the transmission describing the transmission completion time, the destination, the number of pages, and the like. A result report is created and output from the plotter 11 (S108).
[0024]
On the other hand, if the communication has not ended normally (No in S107), the number of redials (predetermined number) set in advance in the facsimile machine and the number of redials performed on the time designation file (the number counted in S105− 1) (S109), and if the number of times set in step S102 has not been reached (Yes in S109), a preset re-call interval time has elapsed since the end of the previous communication (end due to non-delivery) After that, the number of transmissions is counted up (S105), and redialing is performed (S106).
If the communication does not end normally when the number of redials reaches the number set in step S102 (No in S107, No in S109), a transmission stating that the time designation file has been undelivered. A result report is output from the plotter 11 (S110).
As described above, in this embodiment, since it is possible to arbitrarily set the number of re-calls (redial) when transmission cannot be performed at a specified time, for example, the sender always transmits to the other party at that time. If you specify the transmission time in the daytime because you want to do so, set the number of re-calls to a small number (or none) to indicate that the transmission failed before the specified time has passed. Can tell. On the other hand, when the transmission time is specified at night for the purpose of reducing the communication cost or the like, it is easy to succeed in the transmission by the re-calling by setting the number of re-calls to be large.
[0025]
FIG. 12 is an operation flowchart showing the ninth embodiment of the present invention. In this embodiment, when a new time-designated transmission file is created, the system control unit 3 checks whether another time-designated transmission file already exists. Prompt for confirmation whether or not the new time-designated transmission file may be transmitted at the same time as the other time-designated transmission file. Send at the same time as another time-designated send file.
The overall operation is as follows.
First, the system control unit 3 determines whether or not the time designation transmission is selected by the user (S201). If it is determined that the time designation transmission is selected (Yes in S201), it is checked whether another time designation transmission file (untransmitted file) exists in the image memory 7 (S202). As a result, if another time-designated transmission file does not exist (No in S202), reading of the transmission original by the scanner 10 is started, and the read image information is accumulated in the image memory 7 as a time-designated transmission file, and then the step Proceeding to S205, the same processing as steps S104 to S110 in FIG. 11 is executed (S205 to S211).
On the other hand, if another time-designated transmission file exists in the image memory 7 (Yes in S202), the system control unit 3 displays “Another time-designated transmission file is already set. A message such as “Do you want to do it?” Is displayed to prompt the sender to determine whether a new time-designated transmission file can be transmitted at the same time as another time-designated transmission file that already exists.
As a result, if the sender's consent is not obtained (No in S203), that is, if transmission at the same time is rejected, the current time is compared with the designated time for each file (S204), and the current time The transmission processing (S206 to S211) of the corresponding time-designated transmission file is performed in the order in which the designated time has reached. In this case, if the transmission interval between the preceding and following time-designated transmission files is long, the facsimile apparatus enters an energy saving state, but each time the designated transmission time is reached, the facsimile apparatus automatically returns to the normal use state and transmits the time-designated transmission file.
[0026]
On the other hand, if the sender's consent is obtained (Yes in S203), that is, if the transmission at the same time is permitted, the current time and the other time-designated transmission file (managed by the transmission management unit 2). The designated time of the first time designated transmission file) is compared with the designated time (S204), and when the current time reaches the designated time, another time designated transmission file is transmitted (S206 to S211). Immediately thereafter, transmission processing (S206 to S211) of the time designation transmission file in which transmission at the same time is permitted in step S203 is performed. Therefore, when the facsimile apparatus is in the energy saving state, a plurality of time-designated transmission files can be transmitted only by automatically returning to the normal use state once.
As described above, in this embodiment, when another time-designated transmission file already exists when a new time-designated transmission file is created, the new time-designated transmission file already exists. By transmitting at the same time as the file, the power consumption of the facsimile apparatus can be reduced by reducing the number of times of returning from the energy saving state to the normal use state. Also, communication costs can be reduced by sending a plurality of files together at the same time during the night.
In the above description, the newly registered time-designated transmission file is transmitted when transmitting the registered time-designated transmission file. On the contrary, the newly registered time-designated transmission file is transmitted. It is possible to send a time-designated send file that has already been registered when sending.
[0027]
【The invention's effect】
  As explained above, ClaimsIn the first aspect of the invention, when there is a time-designated transmission file waiting to be transmitted, direct transmission is prohibited when the time immediately preceding the transmission designation time of the transmission file reaches a predetermined time, so that direct transmission is not hindered. A time-designated transmission can be started at a designated transmission time.
[Brief description of the drawings]
FIG. 1 is a configuration block diagram of a facsimile apparatus according to each embodiment of the present invention.
FIG. 2 is an operation flowchart of the facsimile apparatus showing the first embodiment of the present invention.
FIG. 3 is a data configuration diagram of a main part of the facsimile apparatus showing the first embodiment of the present invention.
FIG. 4 is an operation flow diagram of a facsimile apparatus showing a second embodiment of the present invention.
FIGS. 5A and 5B are data configuration diagrams of a main part of a facsimile apparatus showing a second embodiment of the present invention.
FIG. 6 is an operation flow diagram of a facsimile apparatus showing a third embodiment of the present invention.
FIG. 7 is an operation flowchart of a facsimile apparatus showing a fourth embodiment of the present invention.
FIG. 8 is an operation flowchart of a facsimile apparatus showing a fifth embodiment of the present invention.
FIG. 9 is an operation flowchart of a facsimile apparatus showing a sixth embodiment of the present invention.
FIG. 10 is an operation flowchart of a facsimile apparatus showing a seventh embodiment of the present invention.
FIG. 11 is an operational flowchart of a facsimile apparatus showing an eighth embodiment of the present invention.
FIG. 12 is an operational flowchart of a facsimile apparatus showing a ninth embodiment of the present invention.
[Explanation of symbols]
1: Time management unit (time management means)
2: Transmission management unit (transmission management means)
3: System control unit
4: G3 communication control unit
5: G4 communication control unit
6: RAM
7: Image memory
8: Display section (message output means)
9: Operation unit (transmission time changing means)
10: Scanner
11: Plotter
12: CPU for energy saving mode

Claims (1)

In a facsimile apparatus having a time designation transmission means for starting transmission of a time designation transmission file at a designated time,
A time management means for determining whether or not the time specified transmission file waiting for transmission has reached a previous time a predetermined time before the transmission specified time of the transmission file;
A transmission management means for prohibiting direct transmission when the time management means determines that the previous time has been reached;
Display means for displaying a message for switching to memory transmission when direct transmission is prohibited by the transmission management means ,
When direct transmission is prohibited, storage of image information in the image memory is started when memory transmission is instructed, and the specified image information is transmitted to the destination at the specified time. Feature facsimile machine.

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