JP2009094629A - Image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming apparatus capable of improving a copy operation with the necessary minimum number of memories conforming to a system configuration without having an expensive and large-capacity storage device dedicated for a page memory. <P>SOLUTION: This image forming apparatus has: a configuration change detecting means for managing the configuration of the image forming apparatus and detecting a change in the configuration; an image data storage section capacity determining means for determining the capacity of the image data storage section and the number of page memories on the basis of the configuration change information about the data storage section; and an image data storage section capacity changing means for changing the capacity of the image data storage section and the number of the page memories. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to the field of image forming apparatuses.

  In image forming apparatuses such as copiers, as a technique for absorbing the speed difference between the reading speed and the output speed, either a method using a page memory or a method in which the reading device matches the output speed has been conventionally employed. ing. In the latter method, the reading device adjusts to the output speed, the data must be transferred from the reading device only when a data request signal is issued from the output device, and the reading operation must be put into a waiting state otherwise. In the method using the page memory, the reading device and the output device can be operated asynchronously by providing a page memory capable of storing at least one page image between the reading device and the output device.

Further, as a technology related to this, Japanese Patent Application Laid-Open No. 2004-228561 discloses an image processing apparatus that can selectively use an image forming mode that uses a page memory and an image forming mode that does not use a page memory.
JP-A-8-102830

  However, in the method using the page memory, the reading device and the output device can be matched with relatively simple control mainly for the management of the page memory. However, in practice, the method for storing image data is large. There is a problem that a page memory having a capacity is required and the device configuration is expensive.

  Further, the page memory in Patent Document 1 is an independent page memory such as a SAF memory, and does not have a single image data storage area. In addition, it is said that page memory is used when the number of copies is multiple, and the use of page memory when other copy conditions (for example, double-sided copy) or performance such as the difference between reading speed and printing speed is changed. There was a problem that was not able to cope.

  Accordingly, in the present invention, in view of the above-described problems, an image forming apparatus that realizes an improvement in a copying operation with a minimum necessary memory suitable for the system configuration without having a storage device dedicated to an expensive and large-capacity page memory. The purpose is to provide.

  In order to solve the above-described problem, an image forming apparatus according to the present invention includes an image data storage unit that forms part of a data storage unit that stores image data read by a document reading unit. In the image forming apparatus stored in the page memory in FIG. 2, configuration change detection means for managing the configuration of the image forming apparatus and detecting a change in the configuration, and configuration change information relating to the data storage unit detected by the configuration change detection means. Based on the image data storage unit capacity determining means for determining the capacity of the image data storage unit and the number of page memories, the capacity of the image data storage unit determined by the image data storage unit capacity determining means, and the Image data storage for changing the capacity of the image data storage unit and the number of page memories based on the number of page memories It characterized by having a a capacity changing means.

  In the image forming apparatus according to the present invention, the data storage unit includes a RAM, the configuration change information is information related to a storage capacity of the RAM, and the image data storage unit capacity determination unit The capacity of the image data storage unit and the number of page memories are determined based on information relating to storage capacity.

  The image forming apparatus according to the present invention further includes a function change detection that detects a change in the function of the image forming apparatus in the image forming apparatus that stores the image data read by the document reading unit in the page memory in the image data storage unit. A page memory number determining means for determining the number of page memories based on the function change information detected by the function change detecting means, and the number of page memories determined by the page memory number determining means. And a page memory number changing means for changing the number of page memories.

  Further, in the image forming apparatus according to the present invention, the function change information is information related to the document reading unit, and the page memory number determining unit is configured to use the page memory based on the information related to the document reading unit. Determining the number of.

  Further, in the image forming apparatus according to the present invention, the function change information is information related to the document output unit, and the page memory number determination means determines the number of page memories based on the information related to the document output unit. Determining.

  In addition, what applied the arbitrary combination of the component of this invention, expression, or a component to a method, an apparatus, a system, a computer program, a recording medium, etc. is also effective as an aspect of this invention.

  According to the present invention, it is possible to provide an image forming apparatus that realizes an improvement in a copy operation with a minimum necessary memory according to the system configuration without having a storage device dedicated to an expensive and large-capacity page memory.

  The best mode for carrying out the present invention will be described below with reference to the drawings in each embodiment.

(Basic configuration of image forming apparatus)
First, the basic configuration of the image forming apparatus according to the present invention will be described with reference to FIG. 1, the image forming apparatus includes a CPU 1, a ROM 2, a RAM 3, a RAM control unit 4, an NVRAM 5, an operation unit 6, an operation unit I / F control unit 7, a scanner engine 8, and a printer engine 9.

  The CPU 1 executes a program stored in the RAM 3 and performs other instructions and control. The ROM 2 stores a program to be executed. Depending on the system, multiple systems are installed to improve processing performance. The NVRAM 5 is a non-volatile memory, and is used for holding device-specific information (for example, a counter value of the number of copies). The operation unit 6 is an interface unit with a device operator, such as a button for device operation and an indicator (LED, LCD display, speaker, etc.) for displaying the device status. The operation unit I / F control 7 To input / output information to / from the operation unit 6. The scanner engine 8 is an image input unit such as a copy or a scanner, and reads image data from a document. The printer engine 9 is a print output unit and prints image data. Image forming methods such as a laser method, an LED method, and an ink jet method are used.

  The RAM 3 is controlled by a RAM control unit, and is used for temporarily storing programs to be executed and processing data. In addition, image data input from input means such as the scanner engine 8 is also temporarily stored. Here, the storage area of the RAM 3 will be described with reference to FIG. A RAM area 204 (corresponding to a data storage unit) is divided into an image data storage area 201, a data area 202, and a program data area 203. The image data storage area 201 is a storage area in which image data is stored, and corresponds to an image data storage unit. In the image data storage area 201, the area is divided into an arbitrary number (1 to n) and treated as a page memory. This corresponds to the area 205 used for the page memory. In FIG. 2, a part of the image data storage area 201 is divided as a page memory. However, depending on the number of page memories, the entire image data storage area 201 may be occupied. Further, the data area 202 stores various setting conditions in the image forming apparatus, device-specific data, a calculated value when the program is executed, and the like. The program data area 203 stores various application programs to be executed.

  FIG. 3 is a block diagram showing functions of the image forming apparatus according to the present invention. It comprises an overall control unit 301, a data accumulation control 302, a scanner reading control unit 303, a printer print control unit 304, a system configuration management unit 305, a storage area control unit 306, and a data storage control unit 307.

  The overall control unit 301 controls the entire function related to the image forming apparatus by controlling the CPU 1. The data accumulation control unit 301 manages an image data storage area 201 as a RAM area usable for image storage, and manages a predetermined usable RAM size and the total capacity of already accumulated data. The scanner reading control unit 303 controls the scanner engine 8. The printer print control unit 304 controls the printer engine 9. The system configuration management unit 305 manages the system configuration (for example, scanner, printer, storage device, etc.) and provides information on the system configuration stored and managed in the NVRAM 5 or ROM 2 in response to a request from the overall control unit 301. To do. Further, when there is a change in the system configuration, this is detected. The storage area control unit 306 manages the entire RAM 3 and controls the division of areas according to usage. The areas depending on usage are, for example, an image data storage area 201, a data area 202, and a program data area 203. This corresponds to image data storage unit capacity changing means. The data storage control unit 307 manages a RAM (part of the RAM 3) assigned to the image data storage, and controls the division in the image data storage RAM. Specifically, the number of page memories is controlled in the image data storage area 201. This corresponds to the page memory number changing means.

  Further, the system configuration management unit 305 will be described in detail. The system configuration management unit 305 manages the system configuration, and notifies the overall control unit 301 of the system configuration (including information related to system functions) at a predetermined timing. The notification timing is when the apparatus is turned on, when the apparatus returns from a state other than the normal mode such as the known energy saving mode, or when the door of the apparatus or other sensor values are changed. The system configuration management unit 305 compares the current system configuration with the previous system configuration that has been stored, detects any change in content, and stores it as a new configuration. In addition, the general control unit 301 is notified that there has been a change. The system configuration management unit 305 has a system configuration and a function for detecting a change in system function, which corresponds to a configuration change detection unit and a function change detection unit.

  FIG. 4 shows an example of system configuration information. FIG. 5 shows an example of the system configuration information after the system configuration is changed with respect to the system configuration information of FIG. The RAM size (256 MB) 301 was changed before the system configuration change (FIG. 4), whereas the RAM size (256 MB) 302 was added after the system configuration change, and the total RAM size was changed to 512 MB. Further, the function of the “conveying speed” of the “recording paper conveying unit” is changed from “20 ppm” to “40 ppm”. In addition, “color correspondence” of the “reading unit” has been changed from “no (monochrome)” to “present (full color)”. The system configuration management unit 305 detects these configuration and function changes and notifies the overall control unit 301 of them.

Example 1
An embodiment when the system configuration is changed in the RAM will be described with reference to the flowchart of FIG. In step S601, the system configuration management unit 305 compares the current system configuration with the stored previous system configuration, and detects a configuration change. Then, the general control unit 301 is notified that there has been a change. In step S602, the overall control unit 301 determines whether the change is for the RAM, and if applicable, acquires the RAM size in step S603. In step S604, the RAM area (image data storage area 201, data) managed by the storage area control unit 306 via the storage area control unit 306 and the data storage control unit 307 based on the acquired RAM size (configuration change information). The size of the area 202 and the program data area 203) and the number of page memories in the image data storage area 201 are changed.

  FIG. 7 shows before and after the change of the RAM area size. A case where the size S0 of the RAM area managed by the storage area control unit 306 is changed to S1 (= S0 × 2) will be described. When the storage area control unit 306 is notified from the overall control unit 301 to change the RAM area size from S0 to S1, the storage area control unit 306 is based on the increment (in this example, twice) of the RMA area. The data area 701, the image data storage area 702, and the program data area 703 are changed to a data area 704, an image data storage area 705, and a program data area 706. In addition, the data storage control unit 307 reserves a page memory in an area used for a page memory having a size of G0: G1 = Sf0: Sf1. The size Sf0 of the area 707 used for the page memory before the configuration change is the number of page memories n, but the size Sf1 of the area 708 used for the page memory after the configuration change (twice Sf0) is the number of page memories m. (Twice n).

  As described above, based on the change in the RAM area size, the image forming apparatus performs processing (scanning) by securing the image data storage area and the number of page memories for storing the image data in accordance with the changed RAM area size. , Copy, print operation, etc.) can be improved.

(Example 2)
Next, a description will be given of an embodiment in the case where the system configuration is changed in the scanner engine. FIG. 8 compares the system configuration before and after the change easily. In this example, it is a change about the color which a reading part can read. The function of the read color 801 is changed from “monochrome” 802 to “color” 803. Specifically, this means that the scanner engine has been changed from a monochrome reading scanner to a color scanner.

  In the example of FIG. 9, the automatic document feeder of the reading unit is changed, and the function of the conveyance 901 is changed from “single side” 902 to “double side correspondence” 903. Specifically, this means that the scanner engine has been changed from one-sided to double-sided scanning automatic document feeder.

Processing performed by the image forming apparatus according to the present invention will be described with reference to the flowchart of FIG.
In step S1001, the system configuration management unit 305 compares the current system configuration with the previous system configuration stored, and detects a change in configuration or function. Then, it notifies the overall control unit 301 that the reading unit has been changed. In step S1002, the overall control unit 301 determines whether the change is for the scanner engine, and acquires function change information in step S1003 if applicable. In this example, the function change information means that the reading color 801 is changed from “monochrome” 802 to “color” 803, and the conveyance method of the automatic document feeder is changed from “single side” 902 to “double side compatible” 903. That is. In step S1004, the number of page memories in the image data storage area 201 is changed via the data storage control unit 207 based on the acquired function change information.

  FIG. 11 shows a RAM area when the function change information about the color that can be read by the reading unit is changed. Since the color that can be read by the reading unit is monochrome before the change, it is sufficient if the page data is for one color of black (K). Therefore, the number of page memories may be one or more. When color reading is possible, page data is required for each of the four colors cyan (C), magenta (M), yellow (Y), and black (K) when outputting in color. Become. For this reason, four or more page memories are required. Therefore, the overall control unit 301 notifies the storage area control unit 306 that 4 pages or more (a multiple of 4) of page memory is necessary to enable color copying. In this example, since the number of page memories before the change is 1, it is assumed that the data storage control unit 307 is notified through the storage area control unit 306 so that four pages of image data can be accumulated. The data storage control unit 307 determines how many page memories need to be added to the page memory number 1 before the change. Then, the size Sf1 of the area 1101 used for the page memory is determined, and the page memory is secured. As shown in FIG. 11, the number of page memories is changed from 1 to 4 in the area 1101 used for the changed page memory. In this example, the size of the RAM area 1102 is not changed, and the size of the image data storage area 1103 is not changed. In this example, the description is given using the minimum necessary page memory number. Therefore, the fourth and subsequent page memories may be added as long as the size of the image data storage area 1103 is not exceeded. In the image data storage area, when the necessary minimum size of the other areas excluding the area 1101 used for the page memory is known, Sf1 is set until the other area does not fall below the minimum required size. May be used.

  Further, for example, if a function for pre-reading one page of the next color original is added, the scanning speed can be improved. In this case, four more page memory numbers are required.

  As described above, by changing the number of page memories for storing color image data based on the color function change information that can be read by the reading unit, a memory area suitable for the system configuration is secured and the image forming apparatus Improvement of processing (scanning, copying, printing operation, etc.) can be realized.

  On the other hand, FIG. 12 shows a RAM area when the function change information of the conveyance surface (single side, double side) of the automatic document feeding of the reading unit is changed. When the automatic document feeder is for single-sided document feeding, the required number of page memories is at least one. When the automatic document feeder is changed to double-sided document feeding, at least two page memories are required to read the front and back of one page of the document, and two page memories need to be added. The overall control unit 301 notifies the storage area control unit 206 that a page memory of two or more pages is necessary to enable both-side reading of a document. The data storage control unit 307 is notified through the storage area control unit 306 so as to be able to store two or more pages of image data. The data storage control unit 307 determines the size Sf1 of the area 1201 used for the page memory for the page memory 1 before the change, and reserves two page memories in the area 1201 used for the page memory. As shown in FIG. 12, the number of page memories in the area 1201 used for the changed page memory is changed from 1 to 2. In this example, the description is made using the minimum necessary page memory number, so the second and subsequent page memories may be added as long as the size of the image data storage area 1202 is not exceeded. Also, in the image data storage area 1202, when the necessary minimum size of the other area excluding the area 1201 used for the page memory is known, the other area does not fall below the minimum required size. Up to the area 1201 used for the page memory may be used.

(Example 3)
Next, a description will be given of an embodiment in which the configuration change is made in the printer engine (original output unit). A case will be described in which a double-sided tray (recording paper reversing unit) is additionally attached to the recording paper transport unit as shown in FIG. After the change, “double-sided tray mounted” 1301 is changed from “none” 1302 to “present” 1303, and the number of sheets 1304 in the apparatus is changed from “2” 1305 to “3” 1306. Due to the addition of the double-sided tray, the number of sheets of recording paper that can be passed in the machine has been changed from 2 to 3 sheets. It is an increase.
FIG. 14 shows the image data storage area 1403 before and after the change. The area 1401 used for the page memory before the change has 2 page memories. The minimum page memory number is 1 when the printer engine is monochrome writing only and the recording paper is conveyed on one side (no double-sided tray installed). Since the number of sheets in the machine is two, the minimum number of page memories is 2 before the change. The number of sheets in the apparatus is the number of sheets that can be fed the next recording sheet during image formation or sheet discharge.

  FIG. 15 is a diagram showing the optimum operation of double-sided copying when the number of sheets that can be passed in the machine is three. As an image forming operation when the double-sided tray is mounted, first, the first document is printed on the surface of the printing paper (1501). Next, the second original is printed on the back side of the original. While the print paper is turned over, the second print paper is sent to increase the printing speed, and the third original is printed on the surface. (1502). Next, the second original is printed on the inverted printing paper (back side) (1503). Then, the printing paper (1, 2 originals) printed on both sides is discharged (1504). As described above, in order to efficiently realize double-sided copying, printing of the third recording sheet (original 5) is started before the first recording sheet (printed material of originals 1 and 2) is discharged. Need to be. Therefore, if there is a page memory of 5 pages, the number of sheets that can be passed through the machine can be used efficiently. From this result, the overall control unit 301 notifies the storage area control unit 306 that a page memory of 5 pages or more is necessary to enable double-sided copying and to optimize the double-sided copying speed. When the data storage control unit 307 is notified through the storage area control unit 306 so that image data of five pages or more can be stored, the data storage control unit 307 stores the page memory 2 before the change in the page memory. The size Sf1 of the area 1402 to be used is determined, and five page memories are secured in the area of the image data storage area 1403. As shown in FIG. 14, the number of page memories is changed from 1 to 5 in the area 1402 used for the changed page memory.

Example 4
Next, a case where the number of page memories is not changed even when the configuration is changed will be described. For example, when the change in the system configuration is the configuration of the recording paper conveyance unit related to the document output unit and the change is “conveyance speed”, the overall control unit 301 instructs the system configuration management unit 305 to “ Make an inquiry about "image speed". This is because the image forming speed determines the printing speed. Even if the conveying speed can be conveyed at a maximum of 40 ppm, the recording paper that has reached the image forming portion is 20 ppm (when the image forming speed is 20 ppm). The image is created at a reduced speed. As a result, productivity as a whole does not increase, and an increase in the number of page memories is unnecessary. When the image forming speed is 20 ppm and there is no change, the overall control unit 301 does not instruct the storage area control unit 306 to increase the number of page memories. In addition, although an instruction regarding the number of page memories is issued from the overall control unit 301, the number of page memories may be instructed to be equal to the number before the configuration change.

  FIG. 16 is a flowchart showing the processing in this case. In step S1601, when the system configuration management unit 305 detects a change in the system configuration and the configuration (function) change is the conveyance speed of the recording paper conveyance unit, the overall control unit 301 further determines in step S1602 the system configuration management unit 305. Check the image forming speed against. In steps S1603 and S1604, the image forming speed may be changed (even if there is no change, for example, the case where the image forming speed is already 40 ppm and the conveyance speed is changed to 40 ppm so that processing can be performed at 40 ppm as a whole). For example, the number of page memories is notified from the overall control unit 301 to the data storage control unit 307 so that a predetermined number of image data can be stored through the storage area control unit 306. Thereafter, the data storage control unit 307 changes the number of page memories. If the image forming speed is not changed in step S1603, the process proceeds to step S1605, and the overall printing performance is not changed, so the overall control unit 301 notifies the storage area control unit 306 of the change in the page memory number. Not done. In this case as well, the number of page memories to be notified may be the same as that before the change of the conveyance speed although notified from the overall control unit 301.

  Next, the case where the number of page memories is not changed even when the readable color of the reading unit is changed will be described with reference to the flowchart of FIG. In step S1701, if the system configuration management unit 305 detects a change in the system configuration and the function change is a change from monochrome to color in the reading unit, the overall control unit 301 further determines in step S1702 the system configuration management unit. An inquiry is made to 305 regarding color correspondence of the document output unit (printing apparatus). This is because, when copying using the page memory, only monochrome image data is required if the printing apparatus is monochrome even if the scanner can perform color reading. In steps S1703 and S1704, if the document output unit is also compatible with color, the overall control unit 301 notifies the data storage control unit 307 of the number of page memories so that a predetermined number of image data can be stored through the storage area control unit 306. To do. Thereafter, the data storage control unit 307 changes the number of page memories. If the image forming speed is not changed in step S1703, the process proceeds to step S1705, and the overall printing performance is not changed, so the overall control unit 301 notifies the storage area control unit 306 of the change in the page memory number. Not done.

  For example, when a known scanner function (Scan to PC, Scan to Email, etc.) is used, the overall control unit 301 may notify the change in the number of page memories regardless of the color correspondence of the document output unit. it can.

  FIG. 18 is a flowchart for a case where the function of the reading speed of the reading apparatus is changed and the conveyance speed of the automatic document feeder is not changed. Since it is the same as that described in FIG.

  As described above, if the processing is not improved even if the number of page memories is increased, the image data area is wasted, so that the number of page memories is not changed even if the configuration is changed. This is because the characteristics of each configuration change information are different.

(Example 5)
FIG. 19 is an example of a screen prompting the user to select whether or not to change the number of page memories when the system configuration is changed on the display panel of the operation unit 6. For example, between step S603 and step S604 in FIG. 6 in the case of the first embodiment, the user determines whether or not to change the storage area control unit 306 before notifying the storage area control unit 306 of the change of the RAM storage area. You can choose. The same applies to the case between step S1003 and step S1004 in FIG. 10 and between step S1603 and step S1604 in FIG. In step S2001 of FIG. 20, the screen shown in FIG. 19 is displayed. In step S2002, the user can select “change” 1901 for the amount of memory for copying. When the purpose of the memory expansion is other than the page memory, “Do not change” 1902 can be selected. If the user selects “change” 1901, in step S 2003, the overall control unit 301 notifies (requests) the change of the storage area or the page memory number to the storage area control unit 306. When the user selects “do not change” 1901, the overall control unit 301 notifies the storage area control unit 306 that the size S (FIG. 2) of the RAM area 204 managed by the storage area control unit 306 has been changed. However, the change of the page memory number is not notified. When the user selects not to change, the data area 202, the image data storage area 201 (excluding the area 205 used for the page memory), and the program data area 203 in the RAM area 204 shown in FIG. You may select which area of the memory you want to reflect the memory increase / decrease.

  As mentioned above, although the Example of this invention was explained in full detail, this invention is not limited to the specific embodiment which concerns, In the range of the summary of this invention described in the claim, various deformation | transformation * It can be changed.

1 is a configuration diagram of an image forming apparatus according to the present invention. FIG. 3 is a diagram illustrating a RAM area included in the image forming apparatus according to the present invention. 3 is a functional block diagram illustrating functions of the image forming apparatus according to the present invention. FIG. It is a figure showing an example of the system configuration which a system configuration management part manages. It is a figure showing an example of the system configuration which a system configuration management part manages. It is a flowchart showing the process which concerns on this invention. FIG. 3 is a diagram illustrating a RAM area included in the image forming apparatus according to the present invention. It is an example of the figure showing a system configuration. It is an example of the figure showing a system configuration. It is a flowchart showing the process which concerns on this invention. FIG. 3 is a diagram illustrating a RAM area included in the image forming apparatus according to the present invention. FIG. 3 is a diagram illustrating a RAM area included in the image forming apparatus according to the present invention. It is an example of the figure showing a system configuration. FIG. 3 is a diagram illustrating a RAM area included in the image forming apparatus according to the present invention. It is an example of the figure showing the number of page memories required for efficient printing. It is a flowchart showing the process which concerns on this invention. It is a flowchart showing the process which concerns on this invention. It is a flowchart showing the process which concerns on this invention. It is an example of the figure of the screen which prompts a user's input. It is a flowchart showing the process which concerns on this invention.

Explanation of symbols

202 Image data storage area 205 Area used for page memory 301 Overall control section 305 System configuration management section 306 Storage area control section 307 Data storage control section

Claims (10)

In an image forming apparatus that stores image data read by a document reading unit in a page memory in an image data storage unit that forms part of a data storage unit that stores data related to the image forming apparatus.
A configuration change detection unit that manages the configuration of the image forming apparatus and detects a change in the configuration;
Image data storage unit capacity determining means for determining the capacity of the image data storage unit and the number of the page memories based on the configuration change information regarding the data storage unit detected by the configuration change detection unit;
Image data storage section capacity for changing the capacity of the image data storage section and the number of page memories based on the capacity of the image data storage section and the number of page memories determined by the image data storage section capacity determination means Change means,
An image forming apparatus comprising: The data storage unit is composed of a RAM,
The configuration change information is information related to the storage capacity of the RAM,
The image data storage unit capacity determining means determines the capacity of the image data storage unit and the number of the page memories based on information on the storage capacity of the RAM;
The image forming apparatus according to claim 1. Screen generating means for generating a screen prompting whether or not to change the capacity of the image data storage unit and the number of the page memories determined in the image data storage unit capacity changing unit;
A display unit for displaying the screen generated by the screen generating means;
The image forming apparatus according to claim 1, further comprising: In an image forming apparatus that stores image data read by a document reading unit in a page memory in an image data storage unit,
A function change detecting means for detecting a change in the function of the image forming apparatus;
Page memory number determining means for determining the number of page memories based on the function change information detected by the function change detecting means;
Page memory number changing means for changing the number of page memories based on the number of page memories determined by the page memory number determining means;
An image forming apparatus comprising: The function change information is information relating to the document reading unit,
The page memory number determining means determines the number of the page memories based on information relating to the document reading unit;
The image forming apparatus according to claim 4. The information relating to the document reading unit is information relating to an automatic document feeder for conveying the document of the document reading unit;
The image forming apparatus according to claim 5. The information relating to the original reading unit is information relating to the performance of the original reading unit;
The image forming apparatus according to claim 5. The function change information is information related to the document output unit,
The page memory number determining means determines the number of page memories based on information relating to the document output unit;
The image forming apparatus according to claim 4. The information relating to the manuscript output unit is information relating to a printing paper conveyance unit that conveys printing paper;
The image forming apparatus according to claim 8. Screen generating means for generating a screen for prompting whether or not to change the number of page memories determined in the page memory number changing means;
A display unit for displaying the screen generated by the screen generating means;
The image forming apparatus according to claim 4, further comprising:

Images