JP3560903B2 - Composite image forming device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a composite image forming apparatus that can be used at least for facsimile and for copying by a single device, and that also uses at least a part of a memory for storing image data.
[0002]
[Prior art]
2. Description of the Related Art In recent years, facsimile apparatuses digitize an image obtained by reading a document and store it in a memory or perform image processing before transmitting the image. Also, a received image is stored in a memory as digital image data or various processing is performed. Output. As for copying machines, digital copying machines that convert an image obtained by reading a document into digital image data, perform various image processing operations, and then output the processed image data have been widely used. Since a digitized facsimile apparatus and a copying machine have components common to an image reading unit, an image output unit, and the like, a single digital facsimile apparatus and a copier can be used as at least a facsimile apparatus and a copying machine. Composite image forming apparatuses have been developed.
[0003]
The reason why a facsimile machine or a copying machine is digitized is that digitized image data can be easily stored in a memory and various image processing can be performed. With a digitized facsimile machine, once image data to be transmitted is once read into a memory, so-called broadcast communication can be easily performed without reading new image data to a plurality of destinations. Become. It is also possible to perform alternate reception in which the received image data is stored in the memory without being output. In a digital copying machine, by using a memory, it is possible to output a plurality of sheets by reading a document once, and to perform image processing for improving image quality.
[0004]
In a conventional digital multifunction peripheral having both functions of a facsimile apparatus and a copying machine, memories are separately provided for a facsimile machine and a copy machine. In the facsimile mode, when the memory for memory reception becomes full, there is a possibility that reception may become busy or the received data stored in the memory may be further overwritten and data which has not been printed may be erased. This phenomenon occurs especially at night, when the recording paper for facsimile reception such as a paper feed cassette or roll paper has run out, or when replenishment or replacement of supplies that run out of toner or ink. It occurs frequently when necessary. In particular, when reception is busy, there is a problem that new data cannot be stored in the memory regardless of the amount of data used in the memory.
[0005]
When the copy mode is used, a memory copy operation is used to read a document once and print a large number of copies, and to speed up reading of the document during a copy process, but the memory used for reading the document is used. When the storage area becomes full, the reading of the next document is stopped, and the reading speed of the document cannot be improved.
[0006]
In order to solve these problems, the present applicant has previously proposed Japanese Patent Application Nos. 11-201099 and 11-260564. In Japanese Patent Application No. 11-201099, a memory is shared as a composite memory by a facsimile function and a copying printer function in a digital multifunction peripheral. In Japanese Patent Application No. 11-260564, each memory can be used as a composite memory in a digital multi-function peripheral, and when the facsimile memory is full at the time of facsimile reception, the facsimile reception data is moved to another memory. As a result, the memory capacity for facsimile is substantially increased.
[0007]
As another conventional technique, JP-A-10-74163 can be cited. In this gazette, by using a system controller for a plurality of applications, a memory unit and a memory controller can be simultaneously used as a shared resource between a plurality of applications in parallel, as in the above-mentioned Japanese Patent Application No. 11-201099. Adjust as follows. In the case where the memory unit has overflowed while inputting image data from the application, the corresponding application is notified that image data cannot be input, and the application performs recovery processing of the corresponding image data. Can be done.
[0008]
As described above, in the conventional digital multi-function peripheral, the memory is devised so as to reduce the memory cost and to suppress the facsimile reception failure due to the insufficient remaining amount of the supplies.
[0009]
[Problems to be solved by the invention]
However, in the technologies proposed in Japanese Patent Application Nos. 11-201099 and 11-260564, the composite memory is occupied by the facsimile reception image data, or the transmission data is stored in the memory in advance, and the data is stored at the designated time. If the combined memory is occupied by a facsimile operation using a memory such as performing facsimile transmission, or if the facsimile operation is busy due to some trouble, the memory copy operation cannot be performed. There is. Similarly, in the prior art disclosed in Japanese Patent Application Laid-Open No. 10-74163, image data cannot be input when a memory copy operation is performed when the memory unit is in a memory over state or when facsimile reception is busy. Therefore, there is a problem that the memory input operation is not performed and the operation itself is prohibited.
[0010]
SUMMARY OF THE INVENTION An object of the present invention is to provide a composite image forming apparatus capable of performing a copy operation even in a state where use of a memory is not possible because a memory is occupied by a facsimile operation or a busy state in the facsimile operation. To provide.
[0011]
[Means for Solving the Problems]
The present invention provides a composite image forming apparatus which can perform at least a copy operation together with a facsimile operation and share at least a part of a memory for storing image data between the two operations.
An operation unit provided for setting operation of copy operation;
When a setting operation is performed to perform a copy operation on the operation unit, it is determined whether or not the memory is in a predetermined non-shareable state by a facsimile operation. And a control unit for performing control so as to perform a direct copy operation that does not use the image forming apparatus.
[0012]
According to the present invention, the composite image forming apparatus can perform at least a copying operation together with a facsimile operation, and shares at least a part of a memory for storing image data between the two operations. The composite image forming apparatus includes an operation unit and a control unit. The operation unit is provided for a setting operation of a copy operation. The control unit determines whether or not the memory is in a predetermined non-shareable state by a facsimile operation when a setting operation is performed on the operation unit to perform a copy operation, and determines that the memory is in a non-shareable state. Control, a direct copy operation that does not use a memory is performed. Therefore, even if the memory cannot be shared, a direct copy operation that does not use the memory is performed, and the user can use the copy function while using the memory in preference to the facsimile operation.
[0013]
In the facsimile operation and the copy operation in the present invention, an image reading unit used to read an image,
An image forming unit used for forming an output image in a facsimile operation and a copy operation;
The image data output from the image reading unit, further includes an image switching unit that switches to selectively provide to the image forming unit or the memory,
The control unit controls the image switching unit when the memory is in the non-shareable state by the facsimile operation when the memory copy operation is set and operated on the operation unit, and controls the image output unit from the image reading unit. Data is switched to be supplied to the image forming unit, and control is performed so as to perform the direct copy operation without using a memory.
[0014]
According to the present invention, the composite image forming apparatus further includes an image reading unit, an image forming unit, and an image switching unit. The image reading unit is used to read an image in a facsimile operation and a copy operation. The image forming unit is used for forming an output image in a facsimile operation and a copy operation. The image switching unit switches the image data output from the image reading unit to selectively supply the image data to the image forming unit or the memory. The control unit controls the image switching unit when the memory copy operation is set on the operation unit and the memory is in a state where sharing is impossible by the facsimile operation, and the image data output from the image reading unit is converted to an image. The control is switched so as to give to the forming unit, and control is performed so as to perform a direct copy operation without using a memory. When a memory copy operation is performed in which an original is once read by the operation unit and a large number of copies are printed, etc., when it is necessary to receive image data by facsimile communication after copying all the copy data in the memory. Further, there is a possibility that the received image data cannot be stored in the memory. Therefore, in such a case, the image switching unit controls the image data output from the image reading unit to be supplied to the image forming unit without performing the memory copying operation, and uses the memory from the first reading of the copying operation. By switching to a direct copy operation that does not perform the operation, the copy operation can be performed even when the memory cannot be shared.
[0015]
Further, in the present invention, the predetermined non-sharable state is a state in which the memory is occupied by the facsimile operation.
[0016]
According to the present invention, even when the memory is occupied by the facsimile operation and cannot be shared for the copy operation, the copy operation can be performed by the direct copy operation without using the memory.
[0017]
Further, in the present invention, the predetermined non-sharable state is a busy state in which image data to be processed by the facsimile operation remains in the memory and the processing of the image data is hindered. .
[0018]
According to the present invention, even if the image data to be processed by the facsimile operation remains in the memory and the memory cannot be shared in the busy state where the processing of the image data is hindered, the memory is not used. The copy operation can be executed by the direct copy operation.
[0019]
Further, in the present invention, the control unit is adapted to the copy operation request when the busy state occurs because there is no sheet tray in which there is a sheet suitable for the image data received in the facsimile reception operation. If there is a paper feed tray in which paper is present, control is performed so that the copy operation is performed using the paper in the paper feed tray.
[0020]
According to the present invention, even when the sheet is in a busy state because there is no sheet feed tray in which a sheet suitable for the image data received in the facsimile receiving operation exists, there is a sheet suitable for the copy operation request. If there is a paper feed tray, the copy operation is performed using the paper in the paper feed tray, so that the copy operation can be performed regardless of the busy state of the facsimile operation.
[0021]
Further, the present invention further includes a tray switching unit that switches a tray that supplies paper for outputting image data,
The control unit is configured such that when there is no sheet tray in which a sheet suitable for the image data received in the facsimile receiving operation exists, and the busy state occurs, there is a sheet suitable for the copy operation request. If there is a paper feed tray, the tray switching unit switches the tray so that the copying operation is performed using the paper in the paper feed tray.
[0022]
According to the present invention, it is possible to switch the tray for supplying the paper for outputting the image data by the tray switching unit, and it is possible to change the busy state due to the absence of the paper feed tray in which the paper matching the image data received in the facsimile receiving operation exists. Even if the facsimile operation is busy, by controlling the tray switching unit to switch the tray if there is a paper feed tray that matches the copy operation request, A copy operation can be performed.
[0023]
Further, the present invention further includes a manual feed tray for manually feeding paper for outputting image data,
The control unit is configured such that when there is no sheet tray in which a sheet suitable for the image data received in the facsimile receiving operation exists, and the busy state occurs, there is a sheet suitable for the copy operation request. If there is no paper feed tray, a request is made to supply paper to the manual feed tray, and a copy operation is performed using the paper supplied to the manual feed tray.
[0024]
According to the present invention, the image forming apparatus further includes a manual feed tray for manually feeding paper for outputting image data. If there is no paper tray with paper that matches the image data received in the facsimile reception operation and there is no paper tray that is compatible with the copy operation request if there is no paper tray that is busy. Requesting paper supply to the manual feed tray, and performing the copy operation using the paper supplied to the manual feed tray, the copy operation can be performed without affecting the facsimile operation in the busy state. . If the paper supplied to the manual feed tray is used for the copy operation regardless of the paper size, it is possible to output the copy operation even if the user does not have paper of a size suitable for the user. And the convenience of the copying operation can be improved.
[0025]
The present invention also provides a manual feed tray for manually feeding paper for outputting image data,
A plurality of trays including a manual tray, a tray switching unit that switches a tray that supplies paper for outputting image data,
The control unit is configured such that when a memory copy operation is set in the operation unit, at least a part of the memory is used by a facsimile reception operation, and the size is adapted to output image data in the copy operation. When there is no tray provided with a sheet of paper, when a sheet is fed to the manual feed tray, the tray switching unit is controlled to switch the sheet feed to the manual feed tray regardless of the sheet size.
[0026]
According to the present invention, a manual feed tray for manually supplying paper for outputting image data, and a tray switching unit for switching a tray for supplying paper for outputting image data among a plurality of trays including the manual tray are provided. In addition. When the image data received by the facsimile reception operation is stored in the memory and there is no suitable paper, a memory copy operation of temporarily reading the original into the memory and printing a large number of copies is performed. If it is set, the facsimile operation takes precedence, so that the copy operation cannot be performed and the output operation waits. In such a case, at the time of the memory copy operation request, it is determined whether or not there is a paper feed tray for supplying paper of a size suitable for the request. Detects whether or not it exists, and if so, uses that paper regardless of size and performs a direct copy operation that does not use memory. Also, the copying operation can be performed, and the convenience can be improved.
[0027]
The present invention also includes a plurality of paper feed trays including at least one paper feed tray dedicated to facsimile reception,
The control unit is configured to control a sheet feed used in the direct copy operation when the paper is in the busy state because a sheet suitable for the image data received in the facsimile reception operation is not present in the sheet feed tray dedicated to the facsimile reception. If the paper present in the tray matches the image data received in the facsimile reception operation, the direct copy operation is preferentially performed, and then the paper in the paper tray used in the direct copy operation is added to the facsimile. It is characterized in that the image data received in the receiving operation is controlled to be output.
[0028]
According to the present invention, when at least one sheet tray dedicated to facsimile reception is busy because there is no sheet suitable for the image data received in the facsimile reception operation, it is used in the direct copy operation. If there is paper in the paper tray that matches the image data received in the facsimile reception operation, direct copy operation is performed first, and then facsimile reception is performed on paper in the paper tray used in the direct copy operation. The image data received by the operation can be output. If the image data received by the facsimile reception operation is stored in the memory and the printing operation of the image data is in a state where there is no paper in the paper feed tray dedicated to the facsimile reception, the busy state as the print impossible state is set. Become. In this case, even if a memory copy operation in which an original is once read and a large number of copies are printed is set, the facsimile operation is given priority and the copy operation cannot be performed. Output operation is left waiting. In such a case, switch to the direct copy operation that does not use the memory, and perform the copy operation with higher priority than the facsimile reception print operation, and perform the process more promptly for the user who requests the copy operation. Can be. Since the image data received by the facsimile reception operation can be output to the paper in the paper feed tray used in the direct copy, the image data can be output after the direct copy, and the busy state due to the facsimile reception operation can be eliminated. .
[0029]
The present invention also provides a plurality of paper trays including at least one paper tray dedicated to facsimile reception,
And a tray switching unit that switches a tray that supplies paper for outputting image data among a plurality of paper trays including a paper tray dedicated to facsimile reception,
The control unit is configured such that when a memory copy operation is set in the operation unit, at least a part of the memory is used by a facsimile reception operation, and the paper is supplied to a paper tray dedicated to facsimile reception during the facsimile reception operation. When there is no paper tray, there is a paper tray other than the paper tray dedicated to facsimile reception provided with paper of a size suitable for outputting image data in the copy operation, and the paper size of the paper tray is dedicated to facsimile reception. The tray switching unit is controlled so that the copying operation and the facsimile receiving operation are performed using the sheet supplied from the sheet feeding tray if the sheet size is equal to the sheet size of the tray.
[0030]
According to the present invention, a sheet for outputting image data is supplied between a plurality of paper feed trays including at least one facsimile reception dedicated paper feed tray and a plurality of paper feed trays including a facsimile reception dedicated paper feed tray. A tray switching unit for switching a tray to be switched. When the image data received by the facsimile reception operation is stored in the memory and there is no suitable paper, a memory copy operation of temporarily reading the original into the memory and printing a large number of copies is performed. If it is set, the facsimile operation takes precedence, so that the copy operation cannot be performed and the output operation waits. In such a case, even in response to the memory copy operation request, the operation is switched to the direct copy operation using no memory, and the copy operation is performed in preference to the facsimile reception print operation. Further, it is determined whether or not the paper size of the paper tray used in the direct copy operation is equal to the paper size suitable for the facsimile reception printing operation. If the paper size is determined to be equal, the facsimile reception is performed using the paper tray. A printing operation can be performed. It is possible to perform the processing more quickly for the user who requests the copy operation, and it is also possible to eliminate the busy state of the facsimile reception operation.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 shows a configuration of a main part of a facsimile apparatus and a copying apparatus according to the present invention in a composite image forming apparatus as one embodiment of the present invention. In FIG. 1, the solid line indicates the flow of image data, and the broken line indicates the flow of control signals. As a copy device, in a direct copy operation which is a normal copy mode, image data read from a document by the reading unit 1 is subjected to various image processing by an image processing unit 2, and then from an image data switching unit 3 to an LSU (Laser). The control unit 4 is provided to the print processing unit 5 via a control unit 4. On the other hand, in the memory copy operation, the image data read by the reading unit 1 is subjected to image processing by the image processing unit 2 and then temporarily stored in the composite memory 6 from the image data switching unit 3 to correspond to the printing speed. The data are sequentially read out and supplied to the print processing unit 5 from the image data switching unit 3 via the LSU control unit 4. In the direct copy operation, the image reading from the original by the reading unit 1 must be adjusted to the speed of the image output by the print processing unit 5, whereas in the memory copy operation, the image data is simply stored in the composite memory 6. Therefore, it can be read quickly.
[0032]
The composite memory 6 stores not only the image data read by the memory copy operation but also image data for electronic sorting that prints a plurality of copies by reading one document and temporary data for creating a print job. It is memorized. The composite memory 6 is also used as a memory in a facsimile operation, and temporarily stores transmission data to improve the processing speed, and a print processing unit 5 for a print job, memory copy, or facsimile reception due to running out of paper. This is also used to accumulate accumulated data when processing cannot be performed or when other processing is performed with priority.
[0033]
In the facsimile transmission mode, the image data switching unit 3 can set whether to emphasize capacity or image quality when storing image data in the composite memory 6. If the image data switching unit 3 is set to emphasize capacity, the image data switching unit 3 supplies the image data to the composite memory 6 via the compression / decompression unit 7 in order to compress the image data into facsimile data. Perform storage by capacity. In the transmission mode of the facsimile operation, the image data read by the reading unit 1 is subjected to image processing by the image processing unit 2 and then transmitted from the image data switching unit 3 to the compression / decompression unit in the same manner as in the above-described memory copy operation. After being given to 7 and subjected to compression processing, the data is transmitted and output from the modem 8 to the telephone line via the composite memory 6. Here, in the direct transmission mode, the image data is read by the reading unit 1 in conjunction with the transmission output of the image data. On the other hand, in the memory transmission mode, the reading of the image data is performed in advance of the transmission output without interlocking with the transmission output, and the image data of the difference from the transmission output is accumulated in the composite memory 6. It should be noted that when the image data switching unit 3 is set to emphasize image quality, the image data is directly stored in the composite memory 6 without compression via the bypass line 9 that bypasses the compression / expansion unit 7.
[0034]
The control of the entire composite image forming apparatus of FIG. 1 is performed by the main CPU 10. Paper on which image data is printed out in the facsimile operation and the copy operation is supplied from a plurality of output trays. An output tray switching unit 11 is provided to switch between a plurality of supply trays, and the switching is controlled by the sub CPU 12. In the copy operation, when the image data is supplied to the print processing unit 5 both when performing the direct copy operation and when performing the memory copy operation, the image data is also supplied to the output tray switching unit 11. The output tray switching section 11 selects a paper feed tray or a manual feed tray containing paper suitable for the image data and causes the print processing to be performed. In the direct copy operation, image data is read in conjunction with the printing process. In the memory copy operation, reading of image data is performed in advance of the printing process without interlocking with the printing process, and the reading speed can be improved. In addition, it is possible to copy a plurality of copies of the same original, and it is possible to improve convenience.
[0035]
In the composite image forming apparatus according to the present embodiment, when a copy operation is performed, if the image data of the facsimile operation occupies a large part in the composite memory 6, it is sufficient to perform the memory copy operation. A large memory capacity cannot be secured. In such a case, the main CPU 10 determines the capacity and outputs the image data read by the reading unit 1 from the print processing unit 5 directly via the LSU control unit 4 without storing the image data in the composite memory 6. It is controlled so as to be given to the tray switching unit 11. That is, the same operation as the direct copy operation which is a normal copy mode is performed.
[0036]
In the reception mode in the facsimile operation, if the operation setting for selecting the memory reception mode is performed in the operation setting unit 13, the facsimile image data received from the telephone line is stored in the composite memory 6 in a compressed state. After being stored and further applied to the compression / expansion unit 7 and subjected to expansion processing, it is applied from the image data switching unit 3 via the LSU control unit 4 to the output tray switching unit 11 from the print processing unit 5. When the operation setting for selecting the direct printing mode is performed in the operation setting unit 13, the facsimile image data received from the telephone line is directly supplied to the compression / decompression unit 7 and decompressed. , From the image data switching unit 3 via the LSU control unit 4 to the output tray switching unit 11 from the print processing unit 5. If the print processing unit 5 becomes unable to process due to paper exhaustion or the like, the facsimile data is stored in the composite memory 6 in a compressed state and becomes busy.
[0037]
FIG. 2 shows an overall device configuration of the digital multi-function peripheral 30 whose main part is shown in FIG. This digital multi-function peripheral 30 can perform a copying operation and a printer operation together with a facsimile operation. The scanner unit 31 corresponds to the reading unit 1 in FIG. The laser recording section 32 corresponds to the print processing section 5 in FIG. The laser recording unit 32 forms an image on a sheet using toner in an electrophotographic system, and performs a post-processing operation such as conveying and sorting the sheet on which the image is formed, stapling, and the like. 34 are provided.
[0038]
The scanner unit 31 is provided as an image input device in the digital multi-function peripheral 30 to read a document image. The scanner unit 31 includes a document mounting table 35 made of transparent glass and a double-sided automatic document feeder (hereinafter referred to as “Recirculating Automatic”).
Document Feeder (abbreviated as “RADF”) 36 and a scanner unit 40.
[0039]
The scanner unit 40 reads, one by one, a document manually placed on the document table 35 by the user or a document automatically sent to the document table 35 by the RADF 36. The RADF 36 has a predetermined document tray, and automatically conveys the documents set in the document tray one by one to the document table 35, and after the scanning by the scanner unit 40 has finished reading the document, at a predetermined take-out position. It has a function to carry it out. Further, after reading the document image by the scanner unit 40, the RADF 36 turns over the document, transports the document again onto the document table 35, and can read not only one side of the document but also both sides. For this reason, the RADF 36 includes, in addition to the one-sided conveyance path used for reading only one side of the document, a two-sided conveyance path used for reading both sides, a guide for switching the used conveyance path, and a guide for each conveyance path. It has a sensor and a control unit for checking the state of the document. Since the detailed configuration of such an RADF 36 is well known, the description is omitted.
[0040]
The scanner unit 40 includes a first scanning unit 41, a second scanning unit 42, an optical lens 43, and a CCD (Charge Coupled Device) 44 for sequentially reading an image of a document in a scanning line direction in units of one pixel. ing. The first scanning unit 41 irradiates the document with light while exposing the document while moving at a constant speed V from left to right in FIG. 2 in a plane parallel to the surface of the document table 35. The first scanning unit 41 is provided with a lamp reflector assembly 41a for irradiating light and a first reflection mirror 41b for guiding the reflected light from the document to the second scanning unit 42. The second scanning unit 42 moves at a speed of V / 2 following the first scanning unit 41. The second scanning unit 42 includes a second reflection mirror 42a and a third reflection mirror 42b for guiding the reflected light from the first reflection mirror 41b toward the optical lens 43 and the CCD 44. .
[0041]
The optical lens 43 forms an image of the reflected light from the third reflecting mirror 42b on the light receiving surface of the CCD 44. A plurality of photoelectric conversion elements are arranged on the light receiving surface of the CCD 44 in the scanning line direction, and each photoelectric conversion element converts the light intensity of each pixel into an analog electric signal. The electric signal from each photoelectric conversion element is sequentially conveyed in the CCD 44, derived from the output terminal of the CCD 44, converted into digital signal image data by the image processing unit 2 in FIG. 1, and subjected to various image processing. It is stored in the composite memory 6 or transmitted to the laser recording unit 32 in response to an output instruction from the main CPU.
[0042]
The laser recording unit 32 corresponds to the print processing unit 5 in FIG. 1, and forms an image on a sheet-like recording sheet based on image data. As shown in FIG. 2, the laser recording unit 32 includes an LSU 46, an electrophotographic process unit 47, a photosensitive drum 48, a fixing device 49, and a sheet conveying mechanism 50. The LSU 46 irradiates the photosensitive drum 48 of the electrophotographic process unit 47 with a laser beam based on image data read by the scanner unit 31 as a copy operation and image data input from the outside as a facsimile operation or a printer operation. The LSU 46 includes a semiconductor laser light source, a polygon mirror that deflects the laser light at a constant angular velocity, and an f-θ lens. The photoreceptor drum 48 has a photoconductive material layer on its surface and is uniformly charged. The charge is partially lost by irradiation with light, and an electrostatic latent image is formed as a whole. The electrophotographic process unit 47 also includes a charger, a developing device, a transfer device, a peeling device, a cleaning device, and a static eliminator disposed around the photosensitive drum 48. In the electrophotographic process unit 47, the electrostatic latent image formed on the photosensitive drum 48 by the LSU 46 is developed with toner supplied from a developing unit, and the transfer unit electrostatically transfers the toner image onto recording paper. Since such an electrophotographic process is well known, a detailed description is omitted.
[0043]
The sheet transport mechanism 50 supplies the recording paper to the electrophotographic processing unit 47, fixes the toner image transferred onto the recording paper, and discharges the recording paper on which the toner image is fixed to the outside. The sheet transport mechanism 50 includes a transport section 33, cassette paper feeders 51, 52, 53, a manual paper feeder 54, a fixing device 49, a duplex copying unit 55, a resupply path 56, a paper discharge roller 57, and a post-processing device 34. Is provided. The transport unit 33 is provided for transporting the recording paper from the cassette paper feed devices 51, 52, 53, the manual paper feed device 54, or the re-supply path 56 to a predetermined transfer position in the electrophotographic process unit 47. At the transfer position, a fixing device of the electrophotographic process unit 47 is arranged. The cassette paper feeders 51, 52, and 53 have a function of storing recording paper for transfer and a function of feeding the recording paper one by one to the transport unit 33 at the time of transfer. The manual paper feeder 54 is used to supply recording paper of a type not stored in the cassette paper feeders 51, 52, and 53 to the transport unit 33.
[0044]
Further, in the present embodiment, when there is no paper feeder 51, 52, or 53 having a paper suitable for the copy printing operation, the manual paper feeder 54 is replenished with paper and the copy operation is performed regardless of the paper size. Since printing is performed, even when the user does not have paper of a size suitable for the copy printing operation, copy printing operation is enabled to improve convenience for the user who performs the copying process. Becomes possible.
[0045]
The double-sided copying unit 55 resupplies the recording paper after forming the image by fixing the toner image to the transport unit 33 in order to form an image on the back side. The resupply path 56 is provided to convey the recording paper after image formation to the duplex copying unit 55. The paper discharge roller 57 supplies the recording paper discharged from the fixing device 49 to either the post-processing device 34 or the re-supply path 56. The post-processing device 34 performs post-processing such as stapling on the discharged recording paper. One of the plurality of cassette paper feeding devices 51, 52, and 53 is reserved as a paper feeding tray dedicated to facsimile reception. In copy and printer operations, do not use the facsimile reception-dedicated paper tray, so that any time facsimile image data is received, recording paper remains in the paper tray and can be supplied. This is to increase a certain probability. In the following description, when any one of the paper feed devices 51, 52, and 53 is indicated, it may be referred to as a “paper feed tray”.
[0046]
FIG. 3 shows a control system of the digital MFP 30. The digital multi-function peripheral 30 includes, in addition to the components shown in FIG. 2, an operation panel board 100, a machine control board 200, a CCD board 300, a main image processing board 400, a sub image processing board 500, An extension board group 600 is provided. These boards control each member in the digital multi-function peripheral 30 and also process images read by the scanner unit 31.
[0047]
An operation panel board 100 shown at the upper right in FIG. 3 corresponds to the operation setting unit 13 in FIG. 1, and includes a sub CPU 101, a memory 102, an operation panel 103, a liquid crystal display (hereinafter abbreviated as “LCD”) display unit 104. And an operation key group 105. The sub CPU 101 manages and controls the LCD display unit 104 and the operation key group 105 arranged on the operation panel 103. The memory 102 stores various control information on the operation panel 103 such as instruction data from the operation key group 105 and information to be displayed on the LCD display unit 104 on the operation panel board 100.
[0048]
The machine control board 200 located at the upper left of FIG. 3 corresponds to the output tray switching unit of FIG. 1 and includes a sub CPU 201 and a memory 202. The sub CPU 201 corresponds to the sub CPU 12 in FIG. The sub-CPU 201 controls the RADF 36, the scanner unit 31, the electrophotographic process unit 47, the duplex copying unit 55, and the post-processing device 34 shown in FIG.
[0049]
The CCD board 300 located at the lower left of FIG. 3 includes the CCD 44 shown in FIG. 2 and generates image data composed of electric signals based on light reflected from a document. A digital circuit 302 such as a CCD gate array is provided for driving the CCD 44, an analog circuit 303 for adjusting a gain of an analog output output from the 44, and an A / D converter for generating image data of a digital signal from the analog output. Device 304 and the like. The control and management of each component of the CCD board 300 are performed by the main CPU 401 of the main image processing board 400.
[0050]
The main image processing board 400 performs image processing on image data generated by the CCD board 300, and is a main part of the image processing unit 2 shown in FIG. That is, the main image processing board 400 includes a main CPU 401, a multi-value image processing unit 402, a memory 403, and a laser controller 404. The main CPU 401 corresponds to the main CPU 10 in FIG. 1 and has a function of controlling each member in the digital multi-function peripheral 30 and managing operations in cooperation with other boards, a sub CPU mounted on the RADF 36 and the post-processing device 34. Having. The multivalued image processing unit 402 performs image processing on image data transmitted from the CCD board 300 so that an image having a desired gradation can be formed on recording paper. The image processing by the multi-value image processing unit 402 is performed on an image corresponding to multi-value image data such as shading correction, density correction, area separation, filter processing, MTF correction, resolution conversion, electronic zoom for magnification change processing, and gamma correction. Processing.
[0051]
The memory 403 corresponds to the composite memory 6 of FIG. 1 and is provided to store various control data such as image data after image processing and image processing procedure management data. The laser controller 404 corresponds to the LSU control unit 4 in FIG. 1, and transfers image data after image processing to the LSU 46. The main CPU 401 performs control data communication with the sub CPU 101 of the operation panel board 100 and inputs instruction data from a user. Further, the main CPU 401 transmits control data indicating an operation state of the digital multi-function peripheral 30 to the sub CPU 101. The sub CPU 101 displays the operation state of the digital MFP 30 on the LCD display unit 104.
[0052]
The sub image processing board 500 is another image processing unit provided for performing further image processing on the image data processed by the main image processing board 400. The sub-image processing board 500 includes a binary image processing unit 501, a memory unit 502, a hard disk device 503, and an interface unit 504. The binary image processing unit 501 corresponds to the compression / decompression unit 7 in FIG. 1 and is provided to binarize image data image-processed by the main image processing board 400 and perform further image processing. And a multi-level binary conversion unit for converting the multi-level image data into binary image data; an image rotation processing unit for rotating the image; And a compression / decompression processing unit for performing Further, the binary image processing unit 501 is provided with a facsimile interface for facsimile communication. The binary image processing unit 501 is connected to the main image processing board 400 via a connector, and is controlled by the main CPU 401.
[0053]
The memory unit 502 stores binary image data processed by the binary image processing unit 501, control data in image processing, and the like, and includes a memory, a gate array that controls the memory, and the like. The hard disk device 503 is provided to store a large amount of image data, and includes a disk memory and a gate array that controls the disk memory. The interface unit 504 includes a Small Computer
It has a SCSI terminal as an external interface conforming to a standard abbreviated as SCSI from System Interface, and a gate array for controlling the SCSI terminal.
[0054]
The extension board group 600 is a board group connected to the sub-image processing board 500 via an interface, and includes a printer board 601, a function extension board 602, and a FAX board 603. The printer board 601 causes the digital MFP 30 to function as a printer. That is, the printer board 601 has a function of controlling the laser recording unit 32 to output image data sent from an external device such as a personal computer. The function expansion board 602 is provided to extend the editing function of the digital multi-function peripheral 30 to effectively utilize its features. The FAX board 603 corresponds to the modem 8 in FIG. 1, and transmits the image data generated by the CCD board 300 to the outside by facsimile communication, or controls the laser recording unit 32 to receive the image data by facsimile communication. It has a function to output image data.
[0055]
Next, image data processing in the FAX mode in which the digital MFP 30 functions as a facsimile machine will be described. The FAX mode has two modes, a transmission mode and a reception mode. First, the transmission mode will be described. In the transmission mode, the image data of the document read by the scanner unit 31 is transmitted to an external communication destination by facsimile communication. In this mode, the user sets a document at a predetermined position on the RADF 36. When the originals are set, they are sent to the original mounting table 35 one by one by the RADF 36. The scanner unit 40 and the CCD board 300 read the image of each document, generate 8-bit image data, and transmit it to the main image processing board 400.
[0056]
The multi-value image processing unit 402 of the main image processing board 400 performs predetermined multi-value image processing such as gamma correction on the 8-bit image data, and transmits the 8-bit image data to the sub-image processing board 500 via the connectors 405 and 505. I do. The multi-level binary conversion unit of the binary image processing unit 501 of the sub-image processing board 500 converts the 8-bit image data into 2-bit image data after performing error diffusion processing. The binarized image data is compressed in a predetermined format and stored in the memory unit 502.
[0057]
The reason why the multi-level binary conversion unit performs the error diffusion processing is that simply performing the multi-level binary diffusion has a problem in image quality, and is a consideration for reducing deterioration of image quality. The purpose of converting image data from 8 bits to 2 bits is to reduce the capacity of the image data. After the communication line with the communication destination is secured by the FAX board 603, the image data is read from the memory unit 502 and transferred to the FAX board 603 side. The FAX board 603 performs necessary processing, such as changing the compression format, and sequentially transmits the data to the communication destination.
[0058]
Next, the reception mode will be described. The reception mode is a mode in which image data transmitted from an external communication destination is output by the laser recording unit 32, and there are two types of a normal reception mode and a memory reception mode.
[0059]
In the normal reception mode, when image data compressed in a predetermined format is transmitted via a communication line, the FAX board 603 transmits the image data to the sub image processing board 500. The sub-image processing board 500 receives the image data by a facsimile interface provided in the binary image processing unit 501, decompresses the image data by a compression / decompression processing unit, and reproduces the image data in page units. It is transmitted to the image processing board 400. After gamma correction is performed in the main image processing board 400, it is transmitted to the LSU 46 of the laser recording unit 32 via the laser controller 404. In this manner, the laser recording unit 32 can output image data having a gradation based on image data received by facsimile communication from the outside.
[0060]
Next, the memory reception mode will be described. The memory reception mode is a mode in which the main CPU 401 executes a function of storing received data transmitted from the sub image processing board 500 in the memory 403 for a predetermined period without immediately outputting the data. In the present embodiment, when the predetermined printing time comes, the main CPU 401 can send all the received data in the memory 403 to the laser recording unit 32 and output the data collectively. That is, in the memory reception mode, the memory reception mode is suitably used mainly for starting output when the user is absent, such as at night or on vacation.
[0061]
FIG. 4 shows an example of a processing procedure of a copy operation by the digital multifunction peripheral 30 of FIG. When the user instructs a copy operation in step a1, a print request is issued. The user also specifies whether to perform the copy operation in the memory copy mode or the direct copy operation. When the user places a document on the document tray of the RADF 36 in step a2, it is determined in step a3 whether or not the mode is the memory copy mode. If it is determined that the mode is not the memory copy mode but the direct copy mode, the process proceeds to step a4. At step a4, reading and printing of the document are sequentially performed, and at step a5, it is determined whether there is a document to be printed next. If there is a document to be printed, the process returns to step a4, and the sequential processing of reading and printing the next document is repeated. If it is determined in step a5 that all the originals have been read, the printing process ends in step a6.
[0062]
If it is determined in step a3 that the current mode is the memory copy mode, the process proceeds to step a11, where it is determined whether the remaining capacity in the composite memory 6 is equal to or more than a certain amount. This fixed amount is, for example, a capacity capable of storing image data by the memory substitute reception function when a facsimile is received. If the remaining capacity is not equal to or more than the predetermined amount, the process shifts to the normal direct copy mode in step a4 and below. If it is determined in step a11 that the remaining capacity is equal to or more than the predetermined amount, the process proceeds to the parallel processing of reading in step a12 and subsequent steps and printing in step a21 and subsequent steps.
[0063]
In step a12, a document reading process is performed, and the image data read in step a13 is stored in the composite memory 6. In step a14, it is determined whether or not there is a document to be continuously read. If there is a document to be read, the process returns to step a12 to continue the reading process. It is determined in step a14 that all the originals have been read, and when there are no more originals to be read, the reading process ends in step a15.
[0064]
At step a21, a printing process is executed. When printing multiple copies, image data from one document is printed multiple times. In step a22, it is determined whether or not there is the next print. If it is determined that there is the next print, the process returns to step a21 to continue the print processing. When there is no print to be repeated in step a22, the printing process ends in step a23.
[0065]
After completion of step a15 or step a23, the process proceeds to step a30, and waits for both the reading process and the printing process of the manuscript to be completed. When both are completed, the entire procedure is completed. After the printing process of step a6 is completed, the procedure is terminated.
[0066]
As described above, even when the operation in the memory copy mode is designated, if it is determined that the remaining capacity in the composite memory 6 is equal to or less than a predetermined amount before reading from the document, the image data is stored in the composite memory 6. Since the copying operation is performed by switching to the direct copy mode without performing the reading operation itself, useless reading operation can be omitted.
[0067]
FIGS. 5 and 6 show another processing procedure of the copy operation by the digital multifunction peripheral 30 of FIG. 2 as another embodiment of the present invention. Each step from step b1 to step b6, each step from step b12 to step b15, each step from step b21 to step b23, and step b30 are each step from step a1 to step a6 in FIG. To step a15, steps a21 to a23, and step a30.
[0068]
In the present embodiment, when the memory copy mode is determined in step b3, the process proceeds to step b11 to determine whether the inside of the composite memory 6 is busy with facsimile image data. If it is determined that the memory is not in the busy state, a copy operation in the memory copy mode using the composite memory 6 is performed in parallel processing from step b12 and step b21. If it is determined in step b11 that the composite memory 6 is busy with the facsimile image data, the process proceeds to step b51.
[0069]
In step b51, it is determined whether or not the target in which the composite memory 6 is busy is facsimile (FAX) reception data. If the data is not facsimile reception data, the data in the busy state is facsimile transmission data and is in a state of waiting for transmission in a predetermined memory transmission mode. Therefore, the composite memory 6 must be occupied. Then, the process proceeds to the direct copy mode in which the composite memory 6 is not used after step b4.
[0070]
If it is determined in step b51 that the data in the busy state is facsimile reception data, it is determined that there is no recording paper in the paper feeder set for facsimile reception and the apparatus is busy. Then, the process proceeds to step b52, where it is determined whether or not there is a paper feed tray in which recording paper suitable for the copy printing operation exists. If there is a suitable paper feed tray, the process proceeds to step b53, where a message to the effect that an operation for switching to the corresponding paper feed tray is to be performed is displayed on the LCD display unit 104, and the user is prompted for the operation. The user can operate the operation key 105 to switch the paper feed tray. In step b54, the process waits for the completion of the switching of the paper feed tray, and when completed, shifts to processing in the normal direct copy mode after step b4.
[0071]
If it is determined in step b52 that there is no paper feed tray in which a suitable recording paper is present in the copy printing operation, the process proceeds to step b55, and a display prompting insertion of the recording paper into the manual paper feeder 54 is displayed on the LCD. It is displayed on the display unit 104. Thereafter, the process proceeds to step b56, in which it is determined whether or not the user has supplied recording paper to the manual paper feeder 54 within a predetermined time. In this step, the paper size does not have to be a recording paper of a size suitable for printing. If the user replenishes the manual paper feeder 54 with recording paper within a certain period of time, the process proceeds to the direct copy mode processing from step b4 described above. On the other hand, if the user does not replenish the recording paper in the manual paper feeder 54 within a certain period of time, the process proceeds from step b56 to step b57 to display on the LCD display unit 104 that copying is not possible.
[0072]
In the present embodiment, even if the user specifies the operation in the memory copy mode, it is determined whether or not the inside of the composite memory 6 is busy with facsimile image data before reading the original data. If the inside of the composite memory 6 is busy, the operation of reading the original data into the composite memory 6 itself is not performed, and the mode can be switched to the direct copy mode to copy the original. Therefore, useless reading processing can be avoided. At this time, if there is a recording sheet suitable for the copy printing operation, the setting of the sheet feeding tray is switched to perform printing. The paper tray can be automatically set to perform copy printing.
[0073]
Further, if there is no paper feed tray in which recording paper of a paper size suitable for the copy printing operation exists, the recording paper is supplied to the manual paper feeding device 54, and the printing process of the copy operation is performed regardless of the paper size. Let it do. As a result, even when the user does not have a recording sheet of a paper size suitable for the copy print operation, the copy print operation can be performed, and the convenience for the user who intends to perform the copy process can be improved. it can.
[0074]
7, 8 and 9 show still another example of the operation in the copy mode. Step c1 to step c6, step c12 to step c15, step c21 to step c23, and step c30 correspond to step a1 to step a6, step a12 to step a15, step a21 to step a23, and step a30 in FIG. Equivalent to step. Steps c11 and c51 to c57 are the same as steps b11 and b51 to b57 in FIGS. 5 and 6. When the user places the document on the document tray of the RADF 36 in step c2, the flag is set to Flag = 0 in step c2A, and then the process proceeds to step c3 to determine whether or not the memory copy mode is set. If it is determined in step c3 that the memory copy mode is set, and if it is determined in step c11 that the composite memory 6 is busy with facsimile image data, the process proceeds to step c51 and subsequent steps. In step c51, it is determined whether or not the target busy state data is facsimile reception data. It is determined that the target busy state data is the facsimile reception data, and in step c57, the display of the copy prohibition is not performed, and the switching of the paper feed tray required in step c53 or the manual feed required in step c55 is performed. When the sheet is inserted into the tray, the flag Flag is set to 1 in step c58.
[0075]
In step c52, it is assumed that at least one of the cassette paper feed tray devices 51, 52, and 53 shown in FIG. 2 is assigned as a paper feed tray dedicated to facsimile reception. The paper feed tray assigned exclusively for facsimile reception in the cassette paper feed trays 51, 52, and 53 does not consume paper for other printing operations such as a copy operation and a printer operation in the composite image forming apparatus. At the time of reception printing, the busy state can be avoided by eliminating the state of no paper as much as possible. Further, the paper size of a paper feed tray dedicated to normal facsimile reception is fixed to a certain size used in a general facsimile machine, for example, A4 size.
[0076]
If it is determined in step c52 that there is a paper feed tray in which suitable paper is present, the process proceeds to step c53, in which an indication to switch to the corresponding paper feed tray is displayed on the LCD display unit 104, and the operation by the user is performed. At step c54, switching of the sheet feeding tray by operating the key 105 is waited.
[0077]
If it is determined in step c52 that there is no paper feed tray in which a suitable paper is present in the copy printing operation, the process proceeds to step c55, and a message indicating that paper is to be inserted into the manual paper feeder 54 is displayed on the LCD display unit 104. To be displayed. Thereafter, the process proceeds to step c56, where it is determined whether or not the user has replenished the manual paper feeder 54 with paper within a predetermined time. The paper size does not have to be a paper of a size suitable for printing. If the user has replenished the manual paper feeder 54 with paper within a certain period of time, the process proceeds to step c58.
[0078]
If the requested paper feed tray is switched in step c54, the process also proceeds to step c58. In step c58, the flag is set to Flag = 1, and the process proceeds to the copy operation in the direct copy mode starting from step c4.
[0079]
Upon completion of the direct copy printing process in step c6, the process proceeds to step c59. In Step c59, it is determined whether or not the flag Flag = 1. If it is determined that the flag is Flag = 1, the process proceeds to step c60, where it is determined whether the paper size of the paper feed tray used in the direct copy printing operation is equal to the paper size for facsimile reception printing. If it is determined that they are not the same, the process proceeds to step c61, where a sheet having the same size as that set in the facsimile printing paper feed tray is present in a paper feeding tray other than the facsimile printing paper feeding tray. It is determined whether or not. If a suitable sheet is present in a sheet feed tray other than the sheet feed tray for facsimile printing, the process proceeds to step c62, and the LCD display unit 104 displays a message requesting the user to switch to the corresponding sheet feed tray. Display. In step c63, the user operates the operation key 105 to wait for the switching of the paper feed tray.
[0080]
In step c60, when it is determined that the paper size of the paper feed tray used in the direct copy printing operation is equal to the paper size for facsimile reception printing, or when switching to the paper feed tray requested in step c63 is performed. In step c64, the printing process of the facsimile reception data in the busy state is executed, and in step c65, the printing operation of the facsimile reception data ends. If it is determined in step c61 that there is no suitable sheet in the sheet feeding tray other than the sheet feeding tray for facsimile printing, the process ends without performing the printing operation of the facsimile reception data. This is because it is quite conceivable that the user receiving facsimile reception data is different from the user performing the copy printing operation, so if facsimile reception data is printed on paper of different sizes, the facsimile reception data will be deleted. This is because there is a high possibility that the content will be contrary to the intention of the receiving user.
[0081]
As described above, in the memory copy operation mode, if the composite memory 6 is busy with facsimile image data before reading the original data, the operation of reading the original data into the composite memory 6 is performed. Instead, since the copy operation is performed by switching to the direct copy operation, it is possible to prevent unnecessary reading processing from being performed on the memory. At this time, if printing is performed using facsimile reception data, paper can be fed for printing facsimile reception data even from a paper tray that cannot originally feed paper for printing facsimile reception data. That is, the busy state of the composite memory 6 can be avoided. Since the direct copy operation is prioritized and facsimile reception data is printed thereafter, it is possible to provide a quicker response to the user who performs the copy process.
[0082]
As described above, in the digital multi-function peripheral 30 according to the present invention, when the multi-function memory 6 is occupied by the facsimile operation or busy, and the memory copy operation is to be performed, the operation is switched to the direct copy operation. The copy operation can be performed simultaneously with the facsimile operation.
[0083]
【The invention's effect】
As described above, according to the present invention, when a copy operation is requested in a memory that at least partially shares a facsimile operation and a copy operation in a predetermined non-sharable state by a facsimile operation, Since the direct copy operation that does not use is performed, the convenience for the user who requests the copy operation can be improved. By sharing at least a part of the memory between the facsimile operation and the copy operation, it is possible to reduce a memory cost and suppress a facsimile reception failure due to a shortage of remaining supplies in the memory reception mode. When the memory cannot be shared by the facsimile operation, the memory is not used in the copy operation, so that the copy operation can be performed together with the facsimile operation without causing a hindrance to the facsimile operation by the copy operation.
[0084]
Further, according to the present invention, when the memory is in a non-sharable state due to facsimile operation, even if a memory copy operation using the memory is set, the direct copy operation without using the memory is performed. Therefore, it is possible to avoid a situation where the copying operation is not accepted.
[0085]
Further, according to the present invention, in a facsimile operation using a memory, for example, even if image data to be transmitted is stored and facsimile transmission is performed at a designated time, a telephone line cannot be connected to a transmission destination. If the image data cannot be sent for any reason, or if the image data received by the facsimile reception operation is to be printed, but cannot be printed because there is no compatible paper, etc. , The memory becomes busy. When the memory is busy, if a memory copy operation in which a document is once read and a large number of copies are printed is set, the memory cannot be used, so that copying cannot be performed. In such a case, since the first read is switched to the direct copy operation using no memory without performing the memory copy operation, the copy operation can be performed even when the memory is busy.
[0086]
Further, according to the present invention, the image data received by the facsimile receiving operation is stored in the memory, and when the paper for printing and outputting the image data is not present in the paper feed tray and is in a busy state in which printing is not possible, once, If you set the memory copy operation to scan a document and print many copies, the facsimile operation is set to operate preferentially, so the copy operation cannot be performed and the output waiting for facsimile operation The state continues. Therefore, in such a case, if there is a sheet in the paper feed tray that meets the memory copy operation request, the direct copy operation without using the memory is performed to improve the convenience of the user who requests the copy operation. Can be.
[0087]
Further, according to the present invention, even if the facsimile operation is busy, in response to a copy operation request, the direct copy without using the memory is switched to the supply tray in which the paper suitable for the copy exists and the direct copy is performed. The image read by the operation can be output.
[0088]
Further, according to the present invention, even when the facsimile operation is busy, the copy operation is performed by a direct copy operation that does not use a memory, and even if there is no paper feed tray in which sheets suitable for copying exist, the manual feed tray can be used. Requesting replenishment of paper, and performing a direct copy operation using the replenished paper, so that a copy operation of paper of a size suitable for the user requesting the copy operation is performed, thereby improving convenience. be able to.
[0089]
Further, according to the present invention, when image data received by a facsimile receiving operation is stored in a memory, and there is no applicable paper, when a memory copy operation is requested, a size compatible with the request is set. If it is determined that there is no paper feed tray that supplies paper, the paper is used in the bypass tray regardless of the paper size, and a direct copy operation that does not use memory is performed. Even if the paper is not held, the copying operation can be performed and the convenience can be improved.
[0090]
Further, according to the present invention, when the facsimile receiving tray is busy with no paper present and a copy operation is requested, the paper used in the copying operation is received in the facsimile receiving operation and stored in the memory. If the image data conforms to the current image data, the priority is given to the direct copy operation in response to the copy operation request, and the image data received by the facsimile reception operation is output after the direct copy operation. It is possible to perform prompt processing without waiting for a request, and to eliminate a busy state due to the facsimile receiving operation.
[0091]
Further, according to the present invention, when the image data received by the facsimile receiving operation is stored in the memory and no suitable paper exists, the memory is not used even for the memory copy operation request. Switching to the direct copy operation, the copy operation is performed with priority over the facsimile reception print operation. Further, if it is determined that the paper size of the paper tray used in the direct copy operation is equal to the paper size suitable for the facsimile reception printing operation, the facsimile reception printing operation can be performed using the paper tray. It is possible to perform the processing more quickly for the user who requests the copy operation, and it is also possible to eliminate the busy state of the facsimile reception operation.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating an electrical configuration of a main part of a composite image forming apparatus according to an embodiment of the invention.
FIG. 2 is a cross-sectional view illustrating a schematic overall configuration of a digital multifunction peripheral 30 as the multifunction image forming apparatus illustrated in FIG.
FIG. 3 is a block diagram showing an electrical configuration of the digital multi-function peripheral 30 shown in FIG.
FIG. 4 is a flowchart illustrating a processing procedure of a copy operation performed by the digital multifunction peripheral 30 of FIG. 2;
FIG. 5 is a flowchart showing a first half of a processing procedure of a copy operation as another embodiment by the digital multi-function peripheral 30 of FIG. 2;
FIG. 6 is a flowchart showing a latter half of a processing procedure of a copy operation as another embodiment of the digital multifunction peripheral 30 of FIG. 2;
FIG. 7 is a partial flowchart including a start portion in a copy operation procedure as still another embodiment of the present invention by the digital multifunction peripheral 30 of FIG. 2;
8 is a flowchart showing an intermediate part following a start part shown in FIG. 7 in a copy operation procedure as still another embodiment of the present invention by the digital multi-function peripheral 30 of FIG. 2;
FIG. 9 is a flowchart showing a copy operation according to still another embodiment of the present invention by the digital multifunction peripheral 30 of FIG. 2, including an end portion following the intermediate portion shown in FIG. 8;
[Explanation of symbols]
1 Reading unit
2 Image processing unit
3 Image data switching section
4 LSU control unit
5 Print processing unit
6 Composite memory
9 Bypass line
10,401 Main CPU
11 Output tray switching section
12 Sub CPU
13 Operation setting section
30 Digital MFP
31 Scanner section
32 Laser recording unit
36 RADF
46 LSU
47 Electrophotographic Process Department
51, 52, 53 Cassette paper feeder
54 Manual Feeder
100 Operation panel board
103 Operation panel
104 LCD display
105 operation keys
200 Machine Control Board
300 CCD board
400 main image processing board
402 Multi-valued image processing unit
403 memory
404 Laser Controller
500 sub image processing board
600 Expansion Board Group

Claims (10)

With the facsimile operation, at least a copy operation is possible, in a composite image forming apparatus that shares at least a part of a memory that stores image data between both operations,
An operation unit provided for setting operation of copy operation;
When a setting operation is performed to perform a copy operation on the operation unit, it is determined whether or not the memory is in a predetermined non-shareable state by a facsimile operation. And a control unit for performing control so as to perform a direct copy operation that does not use the image forming apparatus. In the facsimile operation and the copy operation, an image reading unit used to read an image,
An image forming unit used for forming an output image in a facsimile operation and a copy operation;
The image data output from the image reading unit, further includes an image switching unit that switches to selectively provide to the image forming unit or the memory,
The control unit controls the image switching unit when the memory is in the non-shareable state by the facsimile operation when the memory copy operation is set and operated on the operation unit, and controls the image output unit from the image reading unit. 2. The composite image forming apparatus according to claim 1, wherein switching is performed so as to supply data to the image forming unit, and control is performed so as to perform the direct copy operation without using a memory. The composite image forming apparatus according to claim 1, wherein the predetermined non-shareable state is a state in which the memory is occupied by the facsimile operation. 3. The image forming apparatus according to claim 1, wherein the predetermined non-sharable state is a busy state in which image data to be processed by the facsimile operation remains in the memory, and processing of the image data is hindered. 3. The composite image forming apparatus according to 2. The control unit is configured such that when there is no paper tray in which a sheet suitable for the image data received in the facsimile receiving operation is present and the busy state occurs, there is a sheet suitable for the copy operation request. 5. The composite image forming apparatus according to claim 4, wherein if there is a paper feed tray, control is performed such that the copy operation is performed using the paper in the paper feed tray. A tray switching unit that switches a tray that supplies paper for outputting image data;
The control unit is configured such that when there is no paper tray in which a sheet suitable for the image data received in the facsimile receiving operation is present and the busy state occurs, there is a sheet suitable for the copy operation request. 6. The composite image forming apparatus according to claim 4, wherein if there is a paper feed tray, the tray is switched by a tray switching unit so that the copying operation is performed using the paper of the paper feed tray. Further includes a manual feed tray for manually feeding paper for outputting image data,
The control unit is configured such that when there is no paper tray in which a sheet suitable for the image data received in the facsimile receiving operation is present and the busy state occurs, there is a sheet suitable for the copy operation request. The composite image according to any one of claims 4 to 6, wherein if there is no paper feed tray, a request is made to supply paper to the manual feed tray, and a copy operation is performed using the paper supplied to the manual feed tray. Forming equipment. A manual feed tray for manually feeding paper for outputting image data,
A plurality of trays including a manual tray, a tray switching unit that switches a tray that supplies paper for outputting image data,
The control unit is configured such that when a memory copy operation is set in the operation unit, at least a part of the memory is used by a facsimile reception operation, and the size is adapted to output image data in the copy operation. And when the paper is fed to the manual feed tray when there is no tray provided with the paper, the tray switching unit is controlled to switch the paper feed to the manual feed tray regardless of the paper size. A composite image forming apparatus according to any one of claims 4 to 6. A plurality of paper trays including at least one paper tray dedicated to facsimile reception,
The control unit is configured to control a sheet feed used in the direct copy operation when the paper is in the busy state because a sheet suitable for the image data received in the facsimile reception operation is not present in the sheet feed tray dedicated to the facsimile reception. If the paper present in the tray matches the image data received in the facsimile reception operation, the direct copy operation is preferentially performed, and then the paper in the paper tray used in the direct copy operation is added to the facsimile. The composite image forming apparatus according to claim 4, wherein the composite image forming apparatus is controlled to output image data received in a receiving operation. A plurality of paper trays including at least one paper tray dedicated to facsimile reception;
And a tray switching unit that switches a tray that supplies paper for outputting image data among a plurality of paper trays including a paper tray dedicated to facsimile reception,
The control unit is configured such that when a memory copy operation is set in the operation unit, at least a part of the memory is used by a facsimile reception operation, and the paper is supplied to a paper tray dedicated to facsimile reception during the facsimile reception operation. When there is no paper tray, there is a paper tray other than the paper tray dedicated to facsimile reception provided with paper of a size suitable for outputting image data in the copy operation, and the paper size of the paper tray is dedicated to facsimile reception. 7. The tray switching unit according to claim 4, wherein the control unit controls the tray switching unit to perform the copying operation and the facsimile receiving operation on the paper supplied from the paper feeding tray if the paper size is equal to the paper size of the tray. Composite image forming apparatus.

Images