JP3651085B2 - Facsimile device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a facsimile apparatus connected to a computer such as a personal computer.
[0002]
[Prior art]
The conventional facsimile apparatus rejects reception when printing cannot be performed due to various factors such as out of paper, paper jam, printer cover open, and heater temperature low.
[0003]
In addition, when printing cannot be performed due to the above factors, there has been a facsimile apparatus having a so-called memory substitution reception function that stores received data in a memory such as a RAM. When it was not enough, it refused to receive.
[0004]
In addition, there was a facsimile machine having a function of storing so-called on-demand data in a memory such as a RAM. However, even in this case, if the free space of the memory became insufficient, the on-demand data could not be input. .
[0005]
[Problems to be solved by the invention]
As described above, the conventional facsimile apparatus cannot print and cannot receive data when there is not enough free space in the memory, which is very inconvenient.
[0006]
In addition, in the conventional facsimile apparatus having the on-demand function, when the free space of the memory is not sufficient, the on-demand data cannot be input, which is very inconvenient.
[0007]
The present invention has been proposed in view of the above points, and an object of the present invention is to provide a facsimile apparatus that can be printed even when printing is not possible and the memory capacity is not sufficient.
[0008]
It is a further object of the present invention to provide a facsimile apparatus that can input on-demand data even when the memory capacity is not sufficient.
[0009]
[Means for Solving the Problems]
To achieve the above object, the facsimile apparatus according to the first aspect of the present invention is a facsimile apparatus connected to a computer, and when the on-demand data cannot be stored in the memory on the facsimile side, the on-demand data is stored in the computer. Output to the computer and stored in the storage means of the computer, when there is sufficient free space in the facsimile side memory, on-demand data is received from the computer and stored in the facsimile side memory, and other facsimile machines until then if it is accessible for on-demand data etc., and transmits the like another facsimile machine receives an on-demand data from the computer.
[0010]
Here, as when that can not be stored in the memory is, and if the remaining amount of memory for performing a memory intercept is missing from the reception initially, refers to a case such as the remaining memory capacity has gone missing in the memory Intercept However, a case where a memory for performing memory interception is not provided is also included.
[0011]
[0012]
[0013]
[0014]
[0015]
[0016]
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of the present invention will be specifically described with reference to the drawings.
[0018]
FIG. 1 is a circuit block diagram of a facsimile apparatus according to the present invention. The facsimile apparatus includes a CPU 1, an NCU 2, a RAM 3, a modem 4, a ROM 5, a personal computer IF 6, a gate array 7, a CCD 8, a document feed motor 9, and a scanner. A motor 10, a laser scanner 11, a main motor 12, a heater 13, and a fan 14 are provided. The CPU 1, the NCU 2, the RAM 3, the modem 4, the ROM 5, the personal computer IF 6, and the gate array 7 are connected to each other via a bus line. The gate array 7 includes a CCD 8, a document feed motor 9, a scanner motor 10, and a laser scanner. 11, a main motor 12, a heater 13, and a fan 14 are connected. A personal computer 15 is connected to the personal computer IF 6, and the personal computer 15 is provided with a CPU 16, a RAM 17, a hard disk 18, and the like.
[0019]
The CPU 1 controls the entire facsimile apparatus. The NCU 2 is connected to the telephone line 21 and performs network control. The RAM 3 stores various data. The modem 4 performs modulation of transmission data, demodulation of reception data, and the like. The ROM 5 stores various programs. The CCD 8 reads a document. The document feed motor 9 feeds the document at a predetermined pitch. The scanner motor 10 drives the laser scanner 11. The laser scanner 11 is driven by a scanner motor 10 to scan a recording laser beam. The main motor 12 is for feeding paper and stirring toner. The heater 13 is for performing heat fixing. The fan 14 is for suppressing an adverse effect due to the heat of the heater 13. The CPU 16 controls the entire personal computer 15. The RAM 17 and the hard disk 18 store various data.
[0020]
The scanner motor 10, the laser scanner 11, the main motor 12, the heater 13, and the fan 14 constitute a laser recording type printer unit, and the NCU 2, the modem 4, the CCD 8, and the document feed motor 9 constitute a facsimile unit. Yes. Note that the CPU 1, RAM 3, ROM 5, etc. are common parts of the printer unit and the facsimile unit.
[0021]
Next, the procedure of the reception process in the facsimile apparatus configured as described above will be described with reference to the flowchart shown in FIG.
[0022]
In the reception process, first, the CPU 1 monitors the NCU 2 to determine whether there is a call from another facsimile machine or the like (S1). If there is a call (S1: YES), the CPU 1 checks the printer unit. It is determined whether there is a recording sheet (S2). This determination is made based on a detection signal from a sensor (not shown) that detects the presence or absence of recording paper. If there is no recording paper (S2: NO), printing is not possible, so the CPU 1 determines whether or not there is sufficient free space in the RAM 3 (S3). If there is not enough free space (S3: NO), the memory Since the proxy reception is not possible, the CPU 1 determines whether or not the personal computer 15 is connected to the personal computer IF 6 (S4). As for the free space of the RAM 3, for example, whether or not a document having a normal document density exceeds the capacity capable of receiving at least one original is determined. If the personal computer 15 is connected (S4: YES), the CPU 1 determines whether there is sufficient free space on the hard disk 18 of the personal computer 15 (S5), and if there is enough free space (S5). : YES), the NCU 2 is controlled to receive an incoming call (S6). The free space of the hard disk 18 is determined based on the reply command received by outputting a reply command from the CPU 16 to the CPU 16 of the personal computer 15. Next, the CPU 1 outputs a command requesting the PC 16 of the personal computer 15 to receive the substitute PC, and outputs the reception data demodulated by the modem 4 to the personal computer 15.
[0023]
As a result, the CPU 16 of the personal computer 15 stores the received data from the facsimile apparatus in the hard disk 18 (S7). Thus, PC substitution reception, that is, substitution reception by the personal computer 15 is performed.
[0024]
When all the received data is received, the CPU 1 controls the NCU 2 to disconnect the line (S8), and returns to S1.
[0025]
In S5, if there is not enough free space on the hard disk 18 of the personal computer 15 (S5: NO), the PC proxy reception cannot be performed, and the process returns to S1.
[0026]
In S4, if the personal computer 15 is not connected to the personal computer IF 6 (S4: NO), the PC proxy reception cannot be performed, and the process returns to S1.
[0027]
In other words, if none of printing, memory substitution reception, and PC substitution reception can be performed, the steps S1 to S5 are circulated, and the call cannot be received forever. Since the call from is terminated, the circulation of steps S1 to S5 is automatically stopped.
[0028]
In S3, if there is sufficient free space in RAM 3 (S3: YES), the proxy can receive the memory. Therefore, CPU 1 controls NCU 2 to receive the incoming call (S9), and the received data demodulated by modem 4 is stored in RAM 3. (S10). Then, the CPU 1 determines whether or not there is free space in the RAM 3 (S11), and if there is free space (S11: YES), it is determined whether or not the memory substitution reception has been completed for all pages (S12). If all pages have been completed (S12: YES), the process proceeds to S8 and the line is blocked. Thus, the memory proxy reception is completed.
[0029]
In S12, if the memory proxy reception is not completed for all pages (S12: NO), the process returns to S10 and the memory proxy reception is continued.
[0030]
In S11, if there is no free space in the RAM 3 (S11: NO), the CPU 1 determines whether the personal computer 15 is connected to the personal computer IF 6 (S13), and if it is connected (S13: YES). Then, it is determined whether or not the free space of the hard disk 18 of the personal computer 15 is sufficient (S14). If the free space is sufficient (S14: YES), the received data is stored in the hard disk 18 of the personal computer 15 ( S15), the process proceeds to S8 and the line is blocked. Thus, the PC substitution reception is performed when the free space of the RAM 3 is insufficient during the memory substitution reception.
[0031]
In S14, if there is not enough free space on the hard disk 18 (S14: NO), PC proxy reception cannot be performed, so the process proceeds to S8 and the line is shut off.
[0032]
In S13, if the personal computer 15 is not connected to the personal computer IF 6 (S13: NO), the PC proxy reception is not possible, so the process proceeds to S8 to cut off the line.
[0033]
In S2, if there is a recording sheet in the printer unit (S2: YES), there is a possibility of printing, so the CPU 1 checks the temperature of the heater 13 and determines whether it is a printable temperature. (S16). This determination is made based on a detection signal from a temperature sensor (not shown) arranged in the vicinity of the heater 13. If the printable temperature is reached (S16: YES), printing is possible, so the CPU 1 controls the NCU 2 to receive an incoming call (S17), receives data (S18), and determines whether there is free space in the RAM 3 or not. (S19). If there is free space (S19: YES), the CPU 1 decodes the received data and prints by controlling the scanner motor 10, laser scanner 11, main motor 12 and the like (S20), and printing is completed for all pages. It is determined whether or not (S21). When all the pages are completed (S21: YES), the CPU 1 clears a timer constituted by a counter (not shown) for determining whether or not to enter the sleep mode (S22), and proceeds to S8 to cut off the line. Let
[0034]
In S21, if printing has not been completed for all pages (S21: NO), the process returns to S18 and continues to receive data.
[0035]
In S19, if there is no free space in the RAM 3 (S19: NO), the process proceeds to S13 and asks whether or not the PC proxy reception is possible. That is, even when the RAM 3 has insufficient free space during printing, PC substitution reception is performed if possible.
[0036]
In S16, if the heater 13 is not at a printable temperature (S16: NO), it means that the so-called sleep function for reducing the power consumption by turning off the heater 13 and the fan 14 is working. 13 and the fan 14 are turned on to cancel the sleep mode (S23), and the process proceeds to S3 to determine whether or not there is sufficient free space in the RAM 3. In other words, if the memory substitution reception or the PC substitution reception is possible until the temperature of the heater 13 rises and printing becomes possible, it is performed.
[0037]
Further, in S1, if there is no call from another facsimile machine or the like (S1: NO), if the memory substitution reception or the PC substitution reception has already been performed, it is necessary to print the reception data. It is determined whether received data is stored in the RAM 3 (S24). If the received data is stored in the RAM 3 (S24: YES), it means that the memory proxy reception has already been performed, so that for printing, the CPU 1 determines whether there is a recording sheet in the printer unit ( If there is a recording sheet (S25: YES), the temperature of the heater 13 is checked to determine whether it is a printable temperature (S26). If it is a printable temperature (S26: YES), The scanner motor 10, the laser scanner 11, the main motor 12, and the like are controlled to print the data received by the RAM 3 on behalf of the memory (S27), and the timer is cleared (S28).
[0038]
Next, the CPU 1 determines whether or not received data is stored in the hard disk 18 of the personal computer 15 (S29). This determination is made based on the CPU 1 outputting an inquiry command to that effect to the personal computer 15 and receiving a reply command from the CPU 16 of the personal computer 15. If the received data is stored in the hard disk 18 (S29: YES), it means that the PC proxy reception has already been performed, so the CPU 1 determines whether or not the free space of the RAM 3 is sufficient for printing. If the free space is sufficient (S30: YES), the received data is transferred from the hard disk 18 of the personal computer 15 to the RAM 3 (S31), and the process returns to S1. This transfer is performed by the CPU 1 outputting a transfer request command to the personal computer 15, whereby the CPU 16 of the personal computer 15 reads the received data from the hard disk 18 and outputs it to the facsimile machine, and the CPU 1 stores it in the RAM 3. Is called. That is, by transferring the received data of the hard disk 18 to the RAM 3 and returning to S1, the steps after S24 are executed again, and the received data transferred to the RAM 3 is printed.
[0039]
If the free space of the RAM 3 is not sufficient in S30 (S30: NO), the received data received on behalf of the PC cannot be transferred to the RAM 3, and the process returns to S1.
[0040]
If the received data is not stored in the hard disk 18 of the personal computer 15 in S29 (S29: NO), the PC substitute reception is not performed and there is no received data to be printed, and the process returns to S1.
[0041]
In S126, if the heater 13 is not at a printable temperature (S26: NO), it means that the so-called sleep function is activated to turn off the heater 13 and the fan 14 to reduce power consumption. Then, the fan 14 is turned on to cancel the sleep mode (S32), and the process returns to S1. That is, since it takes time for the heater 13 to reach a printable temperature, the process returns to S1 to check whether there is a call from another facsimile machine or the like.
[0042]
In S25, if there is no recording paper in the printer unit (S25: NO), printing cannot be performed, and the process returns to S1.
[0043]
If the received data is not stored in the RAM 3 in S24 (S24: NO), it means that the memory proxy reception has not been performed or the printing of the data in the RAM 3 has been completed. 18 determines whether or not received data is stored (S33). If received data is stored (S33: YES), the process proceeds to S30 to perform processing for transferring received data. If no received data is stored in the hard disk 18 (S33: NO), it means that there is no received data to be printed. Therefore, the CPU 1 increments the timer by 1 (S34), and the count value of the timer is a predetermined value. It is determined whether or not it is equal to or greater than A (S35), and if it is equal to or greater than a predetermined value A (S35: YES), the heater 13 and the fan 14 are turned off to enter the sleep mode (S36), and the process returns to S1. If the count value of the timer is not equal to or greater than the predetermined value A (S35: NO), the process returns to S1 as it is. That is, the timer is cleared every time printing is performed (S22, S28), and is incremented by 1 every time the step S34 is performed when there is no received data to be printed. Represents the time from the end of printing. Therefore, when this time reaches a predetermined value, the sleep mode is entered in S36 to reduce power consumption.
[0044]
In this way, when the received data cannot be printed on the facsimile side (S2: NO, S16: NO) and cannot be stored in the RAM 3 (S3: NO), the received data is output to the personal computer 15 and the personal computer 15 Since it is stored in the hard disk 18 (S7), it is possible to receive even when printing is not possible and the free space of the memory is insufficient. That is, since the capacity of the hard disk 18 is extremely large, it is usually hardly considered that there is not enough free capacity to store the received data in the hard disk 18, and it is possible to receive PC substitutes substantially without fail. Moreover, since the stored contents of the hard disk 18 are not lost even when the power of the personal computer 15 is turned off, the received data can be securely stored. Of course, PC substitution reception is possible even when the remaining amount of RAM 3 is insufficient during printing or memory substitution reception (S15).
[0045]
When the received data stored in the hard disk 18 of the personal computer 15 can be printed on the facsimile side or stored in the RAM 3 (S26: YES, S30: YES), the received data is received from the personal computer 15 and printed or stored in the RAM 3. (S27, S31), the received data does not remain on the hard disk 18 indefinitely, and the burden on the hard disk 18 can be minimized. In addition, since the reception data stored in the RAM 3 is printed as soon as printing is possible, the reception data received by PC substitution or memory substitution can be printed as quickly as possible.
[0046]
In addition, when the reason why the received data cannot be printed on the facsimile side is in the so-called sleep mode in which the heater 13 and the fan 14 of the printer on the facsimile side are turned off, the heater 13 is called by calling from another facsimile machine or the like. The fan 14 is turned on (S23), and after the heater 13 reaches a predetermined temperature (S26: YES), the received data is received from the personal computer 15 and printed (S27). In addition, the received data can be printed as quickly as possible.
[0047]
In the above embodiment, the reception data is stored in the hard disk 18 in the case of PC substitution reception, but the reception data may be stored in the RAM 17.
[0048]
In the above embodiment, the received data received on behalf of the PC is printed by the printer on the facsimile side. However, the received data stored in the hard disk 18 of the personal computer 15 is decoded by the CPU 16 of the personal computer 15 using the RAM 17, You may make it print with the printer of the personal computer 15. FIG. In this way, the received data can be printed by the printer of the personal computer 15 before the facsimile printer can print.
[0049]
Further, in the case of a facsimile apparatus having a so-called fax forward function for transferring received data to another facsimile apparatus or the like, if the received data is data to be transferred to another facsimile apparatus or the like, there is sufficient free space in the RAM 3 at the time of reception. If not, the received data is transferred to the personal computer 15 and stored in the hard disk 18. If a line with the transfer destination is connected at the time of transfer, the received data may be received from the personal computer 15 and transmitted to the transfer destination. In this way, the fax forward function can be used even when there is not enough free space in the RAM 3.
[0050]
Further, in the case of a facsimile apparatus having a so-called fax on demand or voice on demand function capable of storing a message to a specific partner, if there is not enough free space in the RAM 3 when on demand data is input by the user. The on-demand data is transferred to the personal computer 15 and stored in the hard disk 18. When the free space in the RAM 3 on the facsimile side is sufficient, the on-demand data is received from the personal computer 15 and stored in the RAM 3 on the facsimile side. do it. If on-demand data is accessed from another facsimile machine or the like before being stored in the RAM 3, the on-demand data may be received from the personal computer 15 at that time and transmitted to the other facsimile machine or the like. In this way, on-demand data can be input even when there is not enough free space in the RAM 3.
[0051]
Further, in the case of a facsimile machine not equipped with a so-called sleep function, when the printer on the facsimile side has not been operated for a predetermined time or more, the heater 13 and the fan 14 are turned off according to an instruction from the personal computer 15 to enter the sleep mode. When calling from another facsimile machine or the like, the heater 13 and the fan 14 are turned on by an instruction from the personal computer 15, and after the heater 13 reaches a predetermined temperature, the received data is received from the personal computer 15 and printed. Also good. In this way, even if the facsimile side does not have a sleep function, the personal computer 15 can provide the sleep function, and power consumption can be reduced.
[0052]
In the above-described embodiment, the personal computer 15 is connected to the facsimile apparatus as a computer. However, not only the personal computer 15 but also other various computers such as a workstation may be connected to the facsimile apparatus.
[0053]
【The invention's effect】
As described above, according to the facsimile apparatus of the first aspect of the invention, when the on-demand data cannot be stored in the memory on the facsimile side, the on-demand data is output to the computer and stored in the storage means of the computer. When there is enough free space in the memory on the facsimile side, on-demand data is received from the computer and stored in the memory on the facsimile side, and the on-demand data has been accessed by other facsimile machines until then. For example, since on-demand data is received from a computer and transmitted to another facsimile machine or the like, so-called on-demand data can be input even when there is not enough free space in the memory.
[0054]
[0055]
[0056]
[0057]
[0058]
[0059]
[Brief description of the drawings]
FIG. 1 is a circuit block diagram of a facsimile apparatus according to the present invention.
FIG. 2 is a flowchart illustrating a reception operation of a facsimile apparatus according to the present invention.
[Explanation of symbols]
1 CPU
3 RAM
4 Modem 10 Scanner Motor 11 Laser Scanner 12 Main Motor 13 Heater 15 Personal Computer 16 CPU
17 RAM
18 Hard disk

Claims (1)

A facsimile machine connected to a computer,
When the on-demand data cannot be stored in the memory on the facsimile side, the on-demand data is output to the computer and stored in the storage means of the computer. The on-demand data is received from the computer and stored in the memory on the facsimile side, and if the on-demand data is accessed from another facsimile machine or the like, the on-demand data is received from the computer and the other A facsimile apparatus that transmits to a facsimile apparatus or the like .

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