JPH03224348A - Facsimile equipment - Google Patents

Abstract

PURPOSE:To obtain facsimile transmission reception information optionally when it is desired to be confirmed by devising the equipment such that a storage control means reads the storage content of a storage means when the operator uses an input means to command the read of communication management information and a recording means prints out the communication management information. CONSTITUTION:When a line connects to a communication opposite party, a destination number (ID) and a communication start time are stored in a RAM 2 to revise a data-representing the communication management information and the storage quantity and when the quantity of the storage, that is, the storage number of the communication management information is a prescribed quantity at the end of communication, the communication management information in the RAM 2 is automatically read and the information is printed out by a printer comprising a plotter driver WE and a plotter REC. When the operator desires to obtain the communication management information, the communication management information is optionally read/printed out.

Description

[Detailed Description of the Invention] [Industrial Field of Application] The present invention relates to a facsimile machine, and in particular,
, (ID), communication start time, number of sheets sent/received, sending/receiving errors, sending/receiving speed as required, resolution, etc., and the storage and readout of communication management information.

[Conventional technology]

When managing a facsimile machine, it is important to know when and what type of transmission/reception occurred, whether there was a communication failure, etc. Especially if a reception error occurs during reception, since the reception is automatic, there will be no printed record of the reception. Because there is no
Management information has great significance in the maintenance of facsimile machines.

For this reason, conventionally, facsimile machines are equipped with a printer for printing out management information, and the management information is printed out every time a communication is completed. The device is expensive, has many mechanical components, and maintenance is correspondingly complicated.

The present applicant has developed a facsimile machine that stores communication management information for each communication in a storage device, instructs reading and recording with a copy switch when necessary, and prints out the communication management information in the storage device using a facsimile printer. (Japanese Unexamined Patent Publication No. 55-34570). According to this, a separate printer is not required.

[Problem to be solved by the invention]

However, since the stored information is printed out only when specified by a switch on the operation board, etc., in order to prevent the stored information from being lost if the printout is not specified for a long time, it is necessary to use a storage device with a large storage capacity. must be taken as a matter of fact. In this case, if you do not specify printout for a long time and then specify printout at some point, the amount of memory will become enormous, and it will take a lot of recording paper and recording time to print out the latest information that is currently needed. Obtaining and analyzing communication information for management becomes difficult. Therefore, it is desired that a relatively small-capacity storage means be used, that the communication management information will not be lost, and that the communication management information can be easily obtained.

SUMMARY OF THE INVENTION An object of the present invention is to provide a facsimile machine that can use a relatively small capacity storage means, prevents communication management information from being lost, and allows easy acquisition of communication management information.

[Means to solve the problem]

The facsimile apparatus of the present invention includes a communication means for transmitting and receiving image information, a recording means for printing out the image information received through the communication means, a storage means for storing communication management information generated during the transmission and reception, and A storage control means for controlling reading and writing of communication management information in the storage means, a detection means for detecting the amount of communication management information stored in the storage means, and an input for an operator to instruct reading of the communication management information. After the transmission and reception are completed, the detection means detects the amount of information and the amount of information is equal to or greater than a predetermined value, or when the input means instructs to read the communication management information; The memory content of the storage means is read by the storage control means, communication management information is printed by the recording means, and in the case of printing based on detection by the detection means, after printing of the communication management information is completed, the storage control The method is characterized in that means initializes the address of the storage means.

[Effect]

When the operator instructs to read the communication management information using the input means, the storage control means reads the stored contents of the storage means, and the recording means prints the communication management information. Therefore, when the operator wants to check facsimile transmission/reception information, he or she can obtain it at will.

Further, after the transmission/reception is completed, the detection means detects the amount of communication management information in the storage means, and if the amount of information is equal to or greater than a predetermined value, the storage control means reads out the content stored in the storage means and the recording means prints the communication management information. Therefore, when the amount of stored information reaches a predetermined value, printing is automatically performed.

If the amount of communication management information in the storage means exceeds a predetermined value when the communication ends, the communication management information is automatically stored from the storage means in the order in which it was stored, that is, in the order in which it was stored earlier in time. The information is read out and printed out using the facsimile storage means. Therefore, communication management information can be similarly written next to this printout, and since the printout remains as a printout, the communication management information will not be lost.

Therefore, a relatively small capacity storage means can be used, communication management information will not be lost, and communication management information can be easily obtained.

By the way, when the operator gives a printing instruction using the input means, only printing is performed, and when the amount of information becomes less than a predetermined amount, the storage means initializes the address of the storage means after printing of communication management information is completed, so that the amount of information is Automatic printing in response to a predetermined amount or more includes communication management information that has been printed out by an operator using an input means to arbitrarily instruct printing. In other words, since automatic printout includes information that has been arbitrarily printed out previously, it is easy to analyze and organize communication management information.

〔Example〕

FIG. 1 shows an embodiment of the present invention. 10 in Figure 1
2 shows a conventional facsimile machine element, and 20 is a part added for implementing the present invention.

First, to explain the outline of the conventional part 10, all facsimile information signal formats are serial signals and the information transfer rate is high, so the information signal unit and the control signal whose transfer rate is relatively low Related units are separated, and each unit or module has a one-to-one
An I10 interface is installed in association with the . Control signal units and mechanisms are controlled by μ
- It is made into a CPU (micro-computer). 1
As much as possible, each function is configured into one unit. Each functional unit (scanner ISA, data compression/reproduction device OCR, modem [LSM, 85M, etc.)] is connected to each interface circuit (scanner interface INF4, etc.).
, data compression/playback device interface lNF3,
It is controlled by the system control SCU through a modem interface (NF2, etc.). Signals from the telephone line are passed through the network control circuit NCU to each modem LSM by the data switch DSU, 85
Sorted into M. The image data of the demodulated signal is processed by a data compression/reproduction device OCR and a read/write buffer RWB.
The write circuit WE is configured to drive the write circuit WE through the write device REC to reproduce information in the write device REC.

On the other hand, at the time of transmission, the image signal processed by the video processor vPU is compressed by the data compression/reproduction device DCR via the buffer RWB, and then sent to the modulation/demodulation device FSK.

85M, it is designed to be included in LSM.

The transmission and reception procedure follows CCITT recommendation T30, and the outline is as follows.

■ Calling: Calling the other party by dialing the telephone. ■ Confirmation of called station: Sends a 2100Hz tone to notify that the called station is a facsimile terminal.

■ Function confirmation: Inform the called station function using 300bps low-speed modem FSK.

■ Command information: Informs transmission parameters (transmission speed of high-speed modem H3H, document size, etc.) using low-speed modem FSK.

■ Training: Matching the high-speed modem H5H to the line, sending a specified data pattern,
Examine data transmission error rates.

■ Post-training response: If the data transmission error rate after training is less than a certain value, it will notify you that "reception is ready," and if it is more than a certain value, it will return a "retraining request."

■ Transmission of calligraphy information: Transmit calligraphy information using a high-speed modem.

■ End information Informs you of the existence of secondary manuscripts.

■ Incoming call confirmation 2 Notify calligraphy information reception result.

Transmission data processing is as follows.

(1) Document information: The scanner ISA optically reads the original in units of 1 line (1/7.7 am), and after optical/electrical conversion, the video processor vPU reads 1.0
Convert to binary value. The output from the vpu is stored in the read/write buffer RVH, and the document is advanced by one line by the pulse motor. Data compression playback device O
The output from RIIB in response to the request of CR is OC
After the data amount is reduced (data compression) by R without losing the original information, it is guided to the high-speed modem H5M via the data switch DSu. The signal modulated by the modem is sent to the data switch DSU and the network control unit NCU.
is sent to the line via.

(2) Transmission control information: All information for transmission control is organized by a program. System control S
After the parallel data output from the CU is converted into a serial signal by the data switch interface INF2, a check pit is added for checking transmission errors and is routed to the high speed modem H5M or the low speed modem LSH through the data switch DSU.

The signal modulated by the modem is sent to the data switch DS
υ and the network control unit NCU and sent out to the line.

The received data processing is as follows.

(1) The modulated signal input from the document/picture information transmission line is guided to the high-speed modem H5M via the network control unit NCU and data switch DSU. After being demodulated into a digital signal by the modem H5M, it is output to the data compression/reproduction device OCR via the data switch DSU, where it is reproduced into the original information and stored in the read/write buffer RIIB. In the read/write buffer RwB, when the stored information exceeds one line, the write drive circuit 11E sends 8
At the same time, one line of the received paper (1/7.7 mm)
Proceed. WE drives the plotter REC with high voltage,
It has the function of forming an electrostatic latent image on recording paper.

(2) Transmission control information: All transmission control information is read by software (program). Signals input from the line are guided to the high speed modem H5M or the low speed modem LSM via the network control unit NCU and data switch DSU. After being demodulated into a digital signal by the modem, it is output to the interface lNF2 through the data switch DSU, where it is checked for transmission errors, and is converted into a parallel signal and sent to the system control SCU.
is captured and read.

Next, the additional part 20 for implementing the present invention will be explained.

A microcomputer CPU for controlling reading and writing of management information is connected to the data and address lines.
This CPU includes a non-volatile random access memory RAM2. Random access memory RAMI that temporarily stores data during information processing, data retention circuit (
A data latch) DML, a chip selector C5E, a read-only memory ROM storing management information read/write control program data, a clock circuit TGC1, and an input/output port IOP for expansion are connected. RAM 2 is constantly powered by a battery backup chip BBC.
Always retains written data. The data holding circuit DML has a character code (a code that specifies letters and numbers)
is given to the read-only memory C for the character generator, which stores pixel data for each character in advance.
The character picture signal readout column code is given to the CHR by the CPU via the input/output port OP. CH
The H reading image signal is given to the multiplexer MLX in units of character strings. The multiplexer MLX has a built-in timing pulse generation circuit, serializes the parallel image signal for each character string, and sends it to the read/write buffer RWB and the recording section (Eυ, RFC, RMD) and RII.
In response to the system clock of B, an interrupt request is made to the CPU in character units in synchronization with the line data request from RWB.

In the facsimile shown in FIG. 1, some conventional elements have been slightly modified to implement the present invention. One is that the operation unit display OPB is equipped with a key for specifying printout of management information and a lamp that indicates that this key has been operated. Multiplexer M to RWB
Connect LX, and in print mode,
The image information from the circuit 20, or in the FAX mode, the image information from the data compression/reproduction device DCR is selected.

The other is to create a program and data for the system control SCU to give communication partner number, (ID), transmission/reception failure contents, transmission/reception completion, management information printout command, RAM2 clear command, etc. to the CPU. The point is that a program has been added.

FIG. 2 shows the management information read control operation of the CPU based on the program data of the ROM of the circuit 20. Hereinafter, with reference to this FIG. 2, storage recording and printing out of the management information will be explained. .

When the line is connected to the other party, the system control SCU sends the CPU the other party's number, (ID) and
The reception identification code is sent with an ID identification code added to the beginning and an ID end code added to the end.

CPU is 1. When the ID identification code is received, the code, the next destination number (ID), and the sending/receiving identification code are stored in RAM 1, and when the ID end code is received after this, the start time identification code is stored in RAM 1. 2, read the start time from the clock circuit TGC and store it in RAM.
2, read the ID identification code and other party's ID from RAM 1, and store it in RAM 2.
2 is added to the recording amount data of 2 and the sum is updated and stored in the memory.

The above is the "memory flow of communication partner number" in Figure 2.
This is the content.

During communication, the sending or receiving side becomes unable to communicate, or the sending/receiving side becomes unable to communicate.
If an error exceeding a specified value occurs in the received image information, an identification code indicating the content of the fail and a code indicating the number of pages where the sending/receiving fail has occurred are sent.

The CPU memorizes these codes in RAM 2 and R
1 is added to the recording amount data of AM2 and the sum is updated and stored in the memory. The above is the "memory flow of transmission/reception fail data" in FIG. 2.

When sending/receiving is completed, the system control SC
U releases the line and gives the CPU a code indicating the end of transmission/reception and the final page number of transmission/reception. The CPU is
A code indicating the end of reception and a code indicating the final page number are stored in RAM 2, and the recording amount data is set to +1.

The above is the "memory flow of communication end data" in FIG.

Next, the CPU compares the recording amount data in the RAM 2 with a predetermined value, and if it is greater than or equal to the predetermined value, instructs the SCU to print out. The above is the "printout command flow for a predetermined amount of management information memory" in FIG. 2.

The SCU can be printed out from the CPU or from the operation panel OP.
When instructed by B, if there is no abnormality in the recording system of the facsimile main unit 10, printout is commanded.

Instructs the CPU to output management information data. In response to this command, the CPU reads one line (character line) of data from RAM 2, stores it in RAM 1, and stores one stop code (1) at the end of the memory data in RAM 1.
Then, the CPU notifies the read/write buffer RWB that the image information of one line (pixel line) is ready to be sent. Next, in accordance with a line data request from RIilB and an interrupt request generated in synchronization with the system clock and input in character units, data (character codes) are sequentially read from RAM 1 and output to the data holding circuit DML. - On the other hand, the CPU provides a code indicating the first line (pixel line) to the character generator CHR through the boat IOP. As a result, the image signal of the first pixel line of the first character line is transferred to the read/write buffer RW.
It is written to B and printed out at the timing of the printer system. Furthermore, the CPU monitors the line data request signal via the Iroka port IOP, and changes the CHH readout to the second pixel line when the request signal turns OFF (end of reception of 1 line image information). do.

Next, send a data ready signal to RWB, and as before, RI
In synchronization with the data request signal from IIB and the system clock, the first character code of the first character row is sequentially read from RAM 1 and output to the data holding circuit DML. In this way, when the image information output for the first character line is finished, the RAM
The second character line of the data No. 2 is read and the image information is output in the same way. The same applies below.

As described above, reading and printing out of RAM 2 data is performed. When all reading and printing of the RAM2 data is finished, the CPU sends a recording end signal to the SCU. The above is the "printout flow" shown in FIG.

The SCU confirms that the printer system sensors do not indicate any abnormality, and if they are normal, instructs the CPU to clear RAM 2, and the CPU erases the data in RAM 2.
Notify SCU of completion of erasure. The above is the "management information clear flow" shown in FIG.

When the management information printout command arrives from the operation unit OPB, the SCU also specifies printout to the printer system and commands the CPU to send out the management information data. As a result, management information can be printed out when the amount of data in RAM 2 reaches a predetermined amount, or when printout is commanded by OPB, provided there is no abnormality in the printer system (especially paper trouble). , carried out,
When this printout is completed and there is no abnormality in the printer system, the data in the RAM 2 is erased.

As explained above, when the line is connected to the other party, the number of the other party, (from), and communication start time are sent to the RA.
Memory in RAM 2, and update the data indicating the recording amount to a number larger by 2. If a communication error occurs, the fail content and the page where the fail occurred are stored in RAM 2, and the data indicating the recording amount is updated to a number larger by 1. When the communication ends, the end and the last page are stored in the RAM 2, and the data indicating the recording amount is updated to a number larger by one. After storing such communication management information and updating the data indicating the recorded amount, if the recorded amount, that is, the number of pieces of communication management information stored, exceeds a predetermined value at the end of communication, the communication management information in RAM 2 is stored. The plotter driver I
Print out using a printer consisting of IE and plotter REC. This predetermined value is not a memory unit (bit, byte) of the RAM 2 but a unit of the number of pieces of communication management information. That is, the RAM 2 is read/printed out and initialized (cleared) based on the number of pieces of communication management information stored. Under the condition that the communication management information stored at the time of communication termination is a predetermined amount or more, the minimum is the predetermined amount, and it is possible that the communication management information is greater than the predetermined amount. However, in any case, the amount of communication management information to be printed out is naturally within the maximum limit that can be assumed in advance.

In the embodiment described above, the recording means is activated to print the communication management information stored in the storage means in response to the management information output command operation. That is, when an operator wants to obtain communication management information for some reason, he or she arbitrarily reads out/prints out the communication management information. At this time, since the amount of communication management information printed out is within the maximum limit and is small, the necessary information can be extracted and analyzed immediately.

Next, other embodiments and modifications of the present invention will be described.
In the above embodiment, the management information is the other party ID.

Although communication start time -5, failure details, and number of communication pages are shown, transmission/reception modes such as transmission/reception speed and resolution may also be included, and end time may also be included. When including both, the SCU shall give the ID and the transmission/reception mode to the CPU, the CPU shall write the transmission/reception mode together with the ID to RAM 2 in the "memory flow of communication destination number", and the CPU shall write the transmission/reception mode together with the ID to RAM 2.
, the clock circuit TGC can be
The flow of reading the data and writing it to the RAM 2 may be executed.

In the above embodiment, RAM 1 for data storage is used separately from RAM 2, but RAM 1 is omitted and R
AM 2 may be shared. The communication number data is given to 5cufJ<cpu, but SC
U notifies CPLI of the end of one-page communication for each page of communication,
The CPU counts it, and when it receives communication failure or communication termination from the SCU, the count data is sent to RA.
It may also be written to M2. Further, in the above embodiment, the character generator CHR is used, but the destination number is stored in the facsimile main body IO.

CHR can be omitted when a printer system has a character generator for printing out, such as, or when the printer system can type out characters by inputting a code.

〔Effect of the invention〕

As described above, according to the present invention, when the operator instructs reading of communication management information using the input means, the storage control means reads the stored contents of the storage means, and the recording means prints the communication management information. Therefore, when the operator wants to check facsimile transmission/reception information, he or she can obtain it at will.

Further, after the transmission/reception is completed, the detection means detects the amount of communication management information in the storage means, and if the amount of information is equal to or greater than a predetermined value, the storage control means reads out the content stored in the storage means and the recording means prints the communication management information. Because I do.

When the amount of stored information reaches a predetermined value, printing is automatically performed.

If the amount of communication management information in the storage means exceeds a predetermined value when the communication ends, the communication management information is automatically stored from the storage means in the order in which it was stored, that is, in the order in which it was stored earlier in time. The information is read out and printed out using the facsimile storage means. Therefore, communication management information can be similarly written next to this printout, and since the printout remains as a printout, the communication management information will not be lost.

Therefore, a relatively small capacity storage means can be used, communication management information will not be lost, and communication management information can be easily obtained.

By the way, when the operator gives a printing instruction using the input means, only printing is performed, and when the amount of information becomes less than a predetermined amount, the storage means initializes the address of the storage means after printing of communication management information is completed, so that the amount of information is Automatic printing in response to a predetermined amount or more includes communication management information that has been printed out by an operator using an input means to arbitrarily instruct printing. In other words, since automatic printout includes information that has been arbitrarily printed out previously, it is easy to analyze and organize communication management information.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention, and FIG. 2 is a flowchart showing the control operation of a microcomputer CPU for controlling reading and writing of management information. REC: Plotter (recording means) RAM2: RA
M (memory means) CPU: Microcomputer (memory control means, detection means) SCU System control

Claims (1)

[Claims] A communication means for transmitting and receiving image information, a recording means for printing out the image information received through the communication means, a storage means for storing communication management information generated during the above transmission and reception, and a storage means for storing communication management information for the storage means. comprising a storage control means for controlling reading and writing, a detection means for detecting the amount of communication management information stored in the storage means, and an input means for an operator to instruct reading of the communication management information,
After the above-mentioned transmission/reception is completed, the above-mentioned amount of information is detected by the above-mentioned detection means, and when the above-mentioned amount of information is equal to or greater than a predetermined value, or when the reading of communication management information is instructed from the above-mentioned input means, the above-mentioned storage control means detects the above-mentioned amount of information. The storage contents of the storage means are read out and the communication management information is printed by the recording means, and in the case of printing based on the detection by the detection means, after the printing of the communication management information is finished, the storage control means prints the communication management information of the storage means. A facsimile device characterized by initializing addresses.