JP2004216695A - Image forming apparatus and copy machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming apparatus and a copy machine in which an original image area can be grasped definitely on a print subjected to edge trimming. <P>SOLUTION: The image forming apparatus comprises a printer 100 for forming an image corresponding to an image signal on a sheet based on the image signal, variable magnification means 131, 43, 42 and 37 for arranging the entire image being formed by the printer on the inside of an edge trim area of print sheet size while regulating the size by varying the magnification based on the entire size of the image represented by the image signal, the print sheet size and the edge trim amount, and a means 43 for synthesizing an image signal representative of the section line of the edge trim area on the inside thereof into an image signal being provided to the printer. The section line includes a trim border line and/or an image frame line indicative of the original image area. Magnification is regulated differently in main scanning direction and sub-scanning direction or alternatively regulated with the same magnification. Respective inclusion/noninclusion of the trim border line and the image frame line can also be selected. Furthermore, selection can be made whether magnification is regulated or not. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image forming apparatus capable of setting a trimming area for invalidating image formation at an edge portion of a printing sheet and forming an image only inside the trimming area, and is not particularly limited to this. However, the present invention relates to a laser printer capable of adjusting the resolution of a formed image and a minute magnification by changing a clock cycle of a main scanning pixel and a rotation speed of a polygon mirror. This type of image forming apparatus can be used for printers, copiers and facsimile machines.
[0002]
[Prior art]
In an image forming apparatus of this type, when an image to be printed on a print sheet is the same size as the sheet, the printing position of the image on the sheet is slightly shifted due to skew and shift generated in the process of feeding and conveying the sheet. This shift causes the image to protrude from the sheet. Further, the theoretical paper size and the actual paper size may be slightly different depending on the paper quality or the like. When an image is printed with the theoretical paper size, the image runs off the paper. When an image is printed outside the paper, the print quality is reduced and the inside of the apparatus is stained.
[0003]
Japanese Patent Application Laid-Open No. 2001-19202 proposes that an image is formed on the entire surface of a printing sheet by setting a printing sheet on a large carrier sheet and inserting the printing sheet into a printer. However, a special carrier sheet is required.
[0004]
Therefore, generally, as a measure to prevent image printing outside the paper, trim areas are provided on four sides of the printed image on the basis of the paper, and an image is formed only inside the trim area. However, if trim areas are provided on four sides of the print image, the image is lost. For example, if the image area shown in FIG. 10A is A4 size, it is printed on an A4 size printing paper shown in FIG. 10B by setting a trim area (trim edge). If it is out, even if it is expected to obtain a print of the entire image shown in FIG. 10 (c), the image of the side part is actually missing as shown in FIG. 10 (d).
[0005]
Therefore, a technique is known in which an image is reduced and printed slightly smaller than paper. For example, by aligning the origin (upper left) of the image plane with the corner of the trim edge, as shown in FIG. 10E, in the main scanning direction (horizontal direction in the figure) and the sub-scanning direction (front-back direction in the figure). The image is reduced at different magnifications or at the same magnification as shown in FIG. 10F, and the entire image (FIG. 10A) is arranged inside the trim area (trim edge).
[0006]
[Patent Document 2] Japanese Patent Application Laid-Open No. Hei 5-328091 discloses an aspect ratio of a cut-out area of an image of a photographic film when hard-copying an image of the photographic film in a variable scale so that no blank portion is generated on the copy. Is set to be equal to the aspect ratio of the trim edge of the copy sheet.
[0007]
Japanese Patent Application Laid-Open No. 2000-106623 proposes an image processing apparatus that displays a boundary between a trimmable area and an untrimmable area on a display by a frame when an operator cuts an image of a photographic film on a display. ing.
[0008]
[Patent Document 4] Japanese Patent Application Laid-Open No. Hei 10-319515 proposes a magnification setting device that adjusts an image formation magnification with a fine adjustment width of less than 1% in response to a user's request.
[0009]
Japanese Patent Application Laid-Open No. Hei 8-258329 discloses that correction of main scanning magnification is performed using a PLL circuit that drives a polygon mirror motor that performs laser scanning in an image forming apparatus.
[0010]
[Problems to be solved by the invention]
By the way, in a print in which a trim area is automatically provided on four sides of a print image and the entire original image is automatically reduced and arranged inside the trim edge, a margin at an outer edge of the image is blank on the original image. It may be difficult to read on a print, whether it is a blank in the trim area. In this case, for example, even if the magnification is adjusted to obtain a print on the entire paper surface as in the case of the original image, only the same result can be obtained because the margin on the print is in the trim area.
[0011]
In addition, in order to maintain the similarity between the original image and the printout image, as shown in FIG. 10F, the image is inside the trim edge in both the main scanning direction and the sub-scanning direction, and one side When the image is reduced in the main scanning direction and the sub-scanning direction at the same magnification at which the image area is inscribed in the trim direction in the direction, a blank space is generated between the image area and the trim edge in the other direction. Even if the magnification is adjusted so as to eliminate the blank, only the same result is obtained.
[0012]
SUMMARY OF THE INVENTION An object of the present invention is to make it possible to clearly grasp an original image area on a print subjected to edge trim processing.
[0013]
[Means for Solving the Problems]
(1) A printer (100) for forming an image represented by the image signal on a sheet based on an image signal;
Based on the overall size of the image represented by the image signal, the print paper size, and the edge trim amount, the whole image formed by the printer is scaled to a size inside the edge trim area of the print paper size and arranged inside the print paper size. Magnification changing means (131, 43, 42, 37); and
Means (43) for synthesizing an image signal representing a dividing line (trim boundary line / image frame line) inside the edge trim area from the edge trim area with an image signal to be provided to the printer;
An image forming apparatus (100) comprising:
[0014]
In addition, in order to facilitate understanding, symbols or corresponding items of the corresponding elements of the embodiment shown in the drawings are added for reference as examples in parentheses. The same applies to the following.
[0015]
According to this, as shown in, for example, (g), (h) or (i) of FIG. 10, a dividing line (trim boundary line / image frame line) between the original image area and the trim edge appears on the print. Therefore, the original image area can be clearly recognized on the print.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
(2) The synthesizing means (131, 43, 42, 37) converts the image signal representing the dividing line (trim boundary line / image frame line) into the image signal to be given to the printer when the dividing line addition is designated. The image forming apparatus (100) according to the above (1) performs composition and does not perform composition when there is no lane marking addition designation; According to this, only when a dividing line is desired, as shown in, for example, (g), (h) or (i) of FIG. 10, the dividing line (trim boundary line / image frame line) is designated by adding the dividing line. You can get a certain print. If there is no designation of a dividing line, a print without a dividing line can be obtained, for example, as shown in (e) or (f) of FIG.
[0017]
(3) The image forming apparatus (100) according to (1) or (2), wherein the division line includes a trim boundary line inside a boundary of the edge trim region. According to this, for example, as shown in (g) or (h) of FIG. 10, it is possible to clearly recognize that the inside of the trim boundary is the original image area.
[0018]
(4) The scaling means (131, 43, 42, 37) converts the entire image formed by the printer in each of the main scanning direction and the sub-scanning direction of the image to the inside of the edge trim area of the print paper size. The entire image formed by the printer is adjusted to a size inside the edge trim area of the print paper size and is arranged inside the print paper size at a smaller magnification of the magnification in the main scanning direction and the magnification in the sub-scanning direction to be adjusted to a certain size. The image forming apparatus (100) according to any one of the above (1) to (3). According to this, as shown in, for example, (f), (h) or (i) of FIG. 10, a print whose print image is similar to the original image is obtained, and the reliability of the image shape is high. The region and shape of the original image can be accurately recognized on the print.
[0019]
(5) The image forming apparatus (100) according to (4), wherein the division line includes a region edge line (image frame line) representing a region edge of the image adjusted at the smaller magnification.
[0020]
For example, as shown in FIG. 10I, a print is obtained in which the image is inside the trim edge in both the main scanning direction and the sub-scanning direction, and the image area is inscribed in one direction in the trim edge. On this print, a blank (margin) occurs between the image area and the trim edge in the other direction, but the area end line (image frame line) is printed as shown in FIG. It can be clearly understood that the blank is not in the original image area.
[0021]
(5a) The scaling means (131, 43, 42, 37) converts the entire image formed by the printer in each of the main scanning direction and the sub-scanning direction of the image to the inside of the edge trim area of the print paper size. At each magnification in the main scanning direction and the sub-scanning direction to be adjusted to a certain size, the whole image formed by the printer is adjusted to a size inside the edge trim area of the printing paper size and arranged inside the edge trim area; The image forming apparatus (100) according to any one of (1) to (3). According to this, as shown in (e) or (g) of FIG. 10, a print having a well-arranged image arrangement without a blank inside the trim boundary is obtained.
[0022]
(5b) a printer (100) for forming an image represented by the image signal on paper based on the image signal;
Mode designating means (81 of 79) for selecting an adjustment mode for adjusting the magnification of the whole image formed by the printer to a size inside the edge trim area of the print paper size;
Line insertion designating means (79-82) for selecting the line insertion of the trim boundary line;
When the adjustment mode is selected, the entire image formed by the printer is positioned inside the edge trim area of the print paper size based on the overall size of the image represented by the image signal, the print paper size, and the edge trim amount. Magnification changing means (131, 43, 42, 37) for adjusting the magnification to a predetermined size and arranging the inside thereof;
Means (43) for synthesizing an image signal representing a trim boundary inside the boundary of the edge trim area with an image signal to be provided to the printer when the line insertion is selected;
(20, 630, 100; FIGS. 6 and 7).
[0023]
(5c) a printer (100) for forming an image represented by the image signal on paper based on the image signal;
Mode designating means (81 of 79) for selecting an adjustment mode for adjusting the magnification of the whole image formed by the printer to a size inside the edge trim area of the print paper size;
Line insertion designating means (79-84) for selecting the line insertion of the image area edge;
When the adjustment mode is selected, the entire image formed by the printer is positioned inside the edge trim area of the print paper size based on the overall size of the image represented by the image signal, the print paper size, and the edge trim amount. Magnification changing means (131, 43, 42, 37) for adjusting the magnification to a predetermined size and arranging the inside thereof;
Means for synthesizing an image signal representing an area edge (image frame) representing an area edge of an image with an image signal to be provided to the printer when the line insertion is selected; 20, 630, 100; FIGS. 8, 9).
[0024]
(5d) a printer (100) for forming an image represented by the image signal on paper based on the image signal;
Mode designating means (81 of 79) for selecting an adjustment mode for adjusting the magnification of the whole image formed by the printer to a size inside the edge trim area of the print paper size;
Line insertion designating means (79-84) for selecting the line insertion of the image area edge;
When the adjustment mode is selected, the entire image formed by the printer in each of the main scanning direction and the sub-scanning direction of the image based on the overall size of the image represented by the image signal, the print paper size, and the edge trim amount. The entire image formed by the printer at the smaller magnification of the main scanning direction and the sub-scanning direction for adjusting the image to the size inside the edge trim area of the print paper size is the edge trim area of the print paper size. Zooming means (131, 43, 42, 37) which is adjusted to a size inside and is arranged on the inside;
Means for synthesizing an image signal representing an area edge (image frame) representing an area edge of an image with an image signal to be provided to the printer when the line insertion is selected; 20, 630, 100; FIGS. 8, 9).
[0025]
(5e) a printer (100) for forming an image represented by the image signal on paper based on the image signal;
Mode designating means (81 of 79) for selecting an adjustment mode for adjusting the magnification of the whole image formed by the printer to a size inside the edge trim area of the print paper size;
Line insertion designating means (79-82) for selecting the line insertion of the trim boundary line;
Line insertion designating means (79-84) for selecting the line insertion of the image area edge;
When the adjustment mode is selected, the entire image formed by the printer is positioned inside the edge trim area of the print paper size based on the overall size of the image represented by the image signal, the print paper size, and the edge trim amount. Magnification changing means (131, 43, 42, 37) for adjusting the magnification to a predetermined size and arranging the inside thereof;
When line trimming of the trim boundary line is selected, an image signal representing a trim boundary line inside the boundary of the edge trim region is combined with an image signal to be provided to the printer, and the line trimming of the image region edge is performed. Means for synthesizing an image signal representing an area edge (image frame) representing an area edge of an image with an image signal to be provided to the printer when is selected;
(20, 630, 100; FIGS. 8 and 9).
[0026]
(5f) Further, there is provided independent scaling designating means (83 of 79) for selecting individual scaling adjustments in the main scanning direction and the sub-scanning direction of the image; 42, 37), when the individual scaling adjustment is selected, the entire image formed by the printer in each of the main scanning direction and the sub-scanning direction of the image is placed inside the edge trim area of the print paper size. The whole image formed by the printer is adjusted to a size inside the edge trim area of the print paper size at the smaller magnification of the magnification in the main scanning direction and the magnification in the sub-scanning direction to be adjusted to the size inside the edge trim area. The image forming apparatus described in (e) (20, 630, 100; FIGS. 8 and 9).
[0027]
(6) The image forming apparatus (20, 630, 100) according to any one of the above (1) to (5f); and an original scanner (20) that reads an original image to generate an image signal and supplies the image signal to the scaling unit. 10); a copying apparatus (10, 20, 630, 100) comprising; According to this, it is possible to obtain a copy in which the entire surface of the document read by the document scanner (10) is reduced and arranged inside the trim edge. With respect to this copy, the effects described in the above (1) to (5a) are obtained.
[0028]
(7) Equipped with printing functions such as copy, facsimile, and printer, each resolution can be set in the main scanning direction and the sub-scanning direction, and each magnification in the main scanning direction and the sub-scanning direction can be adjusted. In an image forming apparatus capable of printing,
Equipped with main scanning and sub-scanning basic magnification adjustment setting means for correcting magnification errors between the original image and the printed image that occur when an image signal is printed on paper. A function of trimming the edge of the image based on paper and a function of adjusting a trim area to suppress printing, wherein the trim area is constant even when the magnification of the image is adjusted, and From the basic magnification adjustment set value, paper size, print image size, and trim area, the main scan and sub-scan magnifications of the print image are automatically adjusted in order to print the entire image without losing the print image by the trim area. An image forming apparatus having a printing function, wherein a boundary line between the trim area and a print image is superimposed on an image signal to be entirely printed inside the trim area and printed.
[0029]
According to this, when adjusting the magnification of the print image so as to print the entire area inside from the trim area based on the paper and suppressing image deletion, the user draws the boundary line between the trim area and the image to allow the user to trim the trim area. There is an effect that the visibility that the entire surface is printed on the inner side is improved.
[0030]
(8) In the image forming apparatus according to (7), when printing is performed by adjusting the magnification so that the image is not lost due to the trim area, when the border line is designated, the trim area according to (1) is used. An image forming apparatus for superimposing and printing a boundary of a print image on an image signal whose magnification has been adjusted.
[0031]
According to this, it is possible to specify whether to add a boundary line or not. You can select a print with the border between the image and the trim printed or a print without the border.
[0032]
(9) In the image forming apparatus according to the above (7), when printing is performed by adjusting the magnification so as not to cause image loss due to the trim area, the boundary between the trim area and the print image and the magnification described in the above (7) are used. An image forming apparatus for superimposing and printing a four-sided frame line of an adjusted image signal on an image signal of which magnification has been adjusted.
[0033]
Printing an image frame whose magnification has been changed so that it is printed entirely inside the trim area has the effect of making it easier for the user to understand the image signal area.
[0034]
(10) In the image forming apparatus according to the above (9), when printing is performed by adjusting the magnification so as not to cause image loss due to the trim area, when each line insertion is designated, the trim area of the above (7) is used. An image forming apparatus, wherein a boundary line of a print image and a four-sided frame line of the image signal whose magnification has been adjusted are superimposed and printed on the image signal whose magnification has been adjusted.
[0035]
According to this, it is possible to specify whether or not to add a boundary line or a four-sided frame line. A print in which a boundary line or a four-sided frame line is printed, and a print without these lines can be selected.
[0036]
Other objects and features of the present invention will become apparent from the following description of embodiments with reference to the drawings.
[0037]
【Example】
-1st Example-
FIG. 1 shows an appearance of a multifunction full-color digital copying machine according to a first embodiment of the present invention. The full-color copying machine shown in FIG. 1 generally includes an automatic document feeder (ADF) 30, an operation board 20, a color scanner 10, a color printer 100, and a paper feed bank 35. A finisher 34 with a tray on which a stapler and an imaged sheet can be stacked, a double-sided drive unit 33, and a large-capacity paper feed tray 36 are mounted on the printer 100.
[0038]
A LAN (Local Area Network) to which a personal computer PC is connected is connected to a system controller 630 (FIG. 3) in the machine, and a facsimile control (not shown) connected to a common bus (image data bus / control command bus). An exchange PBX connected to a telephone line PN (facsimile communication line) is connected to the unit FCU. The printed paper of the color printer 100 is discharged onto the paper discharge tray 108 or the finisher 34.
[0039]
FIG. 2 shows a mechanism of the color printer 100. The color printer 100 of this embodiment is a laser printer. In the laser printer 100, four sets of toner image forming units for forming images of each color of magenta (M), cyan (C), yellow (Y), and black (black: K) are arranged in a moving direction of the transfer paper. (From the lower right in the figure to the upper left y), they are arranged in this order. That is, it is a four-drum type full-color image forming apparatus.
[0040]
These magenta (M), cyan (C), yellow (Y), and black (K) toner image forming units include photoconductor units 110M, 110C, 110Y having photoconductor drums 111M, 111C, 111Y, and 111K, respectively. 110K and developing units 120M, 120C, 120Y and 120K. The arrangement of the toner image forming units is such that the rotation axes of the photosensitive drums 111M, 111C, 111Y and 111K in each photosensitive unit are parallel to the horizontal x-axis (main scanning direction), and the transfer paper It is set so as to be arranged at a predetermined pitch in the moving direction y (sub-scanning direction).
[0041]
In addition to the toner image forming unit, the laser printer 100 carries a laser exposure unit 102 by laser scanning, paper feed cassettes 103 and 104, a pair of registration rollers 105, and a transfer paper to transfer each toner image forming unit. The image forming apparatus includes a transfer belt unit 106 having a transfer conveyance belt 160 that conveys the sheet so as to pass through the position, a fixing unit 107 of a belt fixing type, a sheet discharge tray 108, a two-sided drive (surface reversal) unit 33, and the like. The laser printer 100 also includes a manual tray, a toner supply container, a waste toner bottle, and the like (not shown).
[0042]
The laser exposure unit 102 includes semiconductor lasers 41M, 41C, 41Y, and 41K, a polygon mirror, an f-θ lens, a reflection mirror, and the like. The laser exposure unit 102 applies laser light to the surface of each of the photosensitive drums 111M, 111C, 111Y, and 111K based on an image signal. Light is irradiated while scanning while swinging in the x direction.
[0043]
Explaining the image exposure of the yellow image forming system by the semiconductor laser 41Y, the beam emitted from the semiconductor laser 41Y is bent by a cylinder lens and subsequently reflected by a polygon mirror. Subsequently, the reflected beam passes through the f-θ lens to equalize the dot pitch in the main scanning direction, is reflected by a mirror, and scans the photosensitive drum 111Y. Thus, writing of print data, that is, formation of an electrostatic latent image is performed.
[0044]
A synchronization detection sensor that detects the start point of the laser scanning range for yellow image formation generates a line synchronization signal (pulse) when the laser strikes the sensor. This serves as a reference for the writing start position of the main scanning line for yellow image formation. Since the line synchronization signal is generated for each main scanning line, the main scanning image position is determined based on this line synchronization signal. The pixel density in the main scanning direction is determined by the light emitting interval of the semiconductor laser 41Y and the rotation speed of the polygon mirror. The pixel density (line density) in the sub-scanning direction is determined by the rotation speed of the photosensitive drum 111Y and the rotation speed of the polygon mirror. Changing the rotation speed of the photoconductor drum 111Y affects the transfer, fixing, and paper conveyance of the photoconductor latent image, so that the photoconductor drum 111Y is rotated at a constant speed and the rotation speed of the polygon mirror is switched. Changes the sub-scanning pixel density.
[0045]
The sub-scanning magnification adjustment is performed by the same process as the pixel density change in the sub-scanning direction. If the sub-scanning magnification is adjusted, the rotation speed of the polygon mirror changes, and the pixel density in the main scanning direction also changes. The main scanning magnification adjustment is performed by setting the sub-scanning magnification adjustment value and determining the rotation speed of the polygon mirror, and then changing the emission interval of the light beam of the semiconductor laser 41Y. The other magnification adjustments in the printer 100 in the image formation of black K, cyan C, and magenta M are the same as in the case of the above-described yellow image formation.
[0046]
The dashed line on FIG. 2 indicates the transfer path of the transfer paper. The transfer paper fed from the paper feed cassettes 103 and 104 is conveyed by conveyance rollers while being guided by a conveyance guide (not shown), and is sent to the registration roller pair 105. The transfer paper sent to the transfer / conveyance belt 160 at a predetermined timing by the registration roller pair 105 is carried by the transfer / conveyance belt 160 and conveyed so as to pass through the transfer position of each toner image forming unit.
[0047]
The toner images formed on the photosensitive drums 111M, 111C, 111Y, and 111K of the respective toner image forming units are transferred to transfer paper carried and conveyed by the transfer / conveyance belt 160, and a superimposition of color toner images, that is, a color image is formed. The formed transfer paper is sent to the fixing unit 107. That is, the transfer is a direct transfer system in which a toner image is directly transferred onto a transfer sheet. When passing through the fixing unit 107, the toner image is fixed on the transfer paper. The transfer paper on which the toner image has been fixed is discharged or fed to the discharge tray 108, the finisher 36, or the double-sided drive unit 33.
[0048]
The outline of the yellow Y toner image forming unit will be described below. Other toner image forming units have the same configuration as that of yellow Y. The yellow Y toner image forming unit includes the photoconductor unit 110Y and the developing unit 120Y as described above. The photoconductor unit 110Y includes, in addition to the photoconductor drum 111Y, a brush roller that applies a lubricant to the surface of the photoconductor drum, a swingable blade that cleans the surface of the photoconductor drum, and a static elimination lamp that irradiates light to the surface of the photoconductor drum. And a non-contact type charging roller for uniformly charging the surface of the photosensitive drum.
[0049]
In the photoconductor unit 110Y, the laser beam L modulated based on the print data and deflected by the polygon mirror by the laser exposure unit 102 is applied to the surface of the photoconductor drum 111Y uniformly charged by the charging roller to which the AC voltage is applied. Is irradiated while being scanned, an electrostatic latent image is formed on the surface of the photosensitive drum 111Y. The electrostatic latent image on the photoconductor drum 11IY is developed by the developing unit 20Y to be a yellow Y toner image. At the transfer position where the transfer paper on the transfer conveyance belt 160 passes, the toner image on the photosensitive drum 11IY is transferred to the transfer paper. After the toner image is transferred, the surface of the photoreceptor drum 111Y is coated with a predetermined amount of lubricant by a brush roller, is cleaned by a blade, and is discharged by light emitted from a discharge lamp. It is provided for the formation of an electrostatic latent image.
[0050]
The developing unit 120Y contains a two-component developer containing a magnetic carrier and a negatively charged toner. The developing case 120Y includes a developing roller disposed so as to be partially exposed from the opening on the photosensitive drum side, a conveying screw, a doctor blade, a toner density sensor, a powder pump, and the like. The developer contained in the developing case is frictionally charged by being agitated and transported by the transport screw. Then, a part of the developer is carried on the surface of the developing roller. The doctor blade uniformly regulates the layer thickness of the developer on the surface of the developing roller, and the toner in the developer on the surface of the developing roller is transferred to the photosensitive drum, thereby forming a toner image corresponding to the electrostatic latent image on the photosensitive drum. Appears on drum 111Y. The toner density of the developer in the developing case is detected by a toner density sensor. When the density is insufficient, the powder pump is driven to supply toner.
[0051]
The transfer conveyance belt 160 of the transfer belt unit 106 is connected to four grounded stretching rollers so as to pass through respective transfer positions in contact with and facing the photosensitive drums 111M, 111C, 111Y and 111K of each toner image forming unit. It is hung around. One of the stretching rollers is 109. Of these tension rollers, an electrostatic attraction roller to which a predetermined voltage is applied is disposed so as to face an entrance roller on the upstream side in the transfer sheet moving direction indicated by a two-dot chain line arrow. The transfer paper that has passed between these two rollers is electrostatically attracted onto the transfer / conveying belt 160. The exit roller on the downstream side in the transfer paper moving direction is a drive roller that frictionally drives the transfer conveyance belt, and is connected to a drive source (not shown). In addition, a bias roller to which a predetermined cleaning voltage is applied from a power supply is arranged so as to come into contact with the outer peripheral surface of the transfer conveyance belt 160. The bias roller removes foreign matters such as toner adhered to the transfer / conveying belt 160.
[0052]
Further, a transfer bias applying member is provided so as to be in contact with the back surface of the transfer conveyance belt 160 forming a contact opposing portion that opposes the photoconductor drums 111M, 111C, 111Y and 111K. These transfer bias applying members are fixed brushes made of Mylar, and a transfer bias is applied from each transfer bias power supply. By the transfer bias applied by the transfer bias applying member, transfer charges are applied to the transfer / conveyance belt 160, and a transfer electric field having a predetermined intensity is formed between the transfer / conveyance belt 160 and the surface of the photosensitive drum at each transfer position. .
[0053]
The sheet on which the toner images of the respective colors formed on the photosensitive drums 111M, 111C, 111Y, and 111K are transferred by the transfer and transfer belt 160 is sent to the fixing device 107, where the toner image is heated and pressed to form a sheet. Is heat-fixed. After the heat fixing, the sheet is sent to the finisher 34 from a discharge port 34ot to the finisher 34 on the upper portion of the left side plate. Alternatively, the paper is discharged to a paper discharge tray 108 on the upper surface of the printer body.
[0054]
Of the four photosensitive drums, the photosensitive drums 111M, 111C, and 111Y for forming a magenta image, a cyan image, and a yellow image are one electric motor (color drum motor; color drum motor) for driving a color drum (not shown). M: not shown), and is driven at a one-step speed reduction via a power transmission system and a speed reducer (not shown). The photosensitive drum 111K for forming a black image is driven by one electric motor (K drum motor: not shown) for driving the black drum at a one-step speed reduction via a power transmission system and a speed reducer (not shown). You. Further, the transfer conveyance belt 160 is rotated by driving a transfer drive roller via a power transmission system by the K drum motor. Accordingly, the K drum motor drives the K photoconductor drum 11K and the transfer / transport belt 60, and the color drum motor drives the M, C, Y photoconductor drums 11M, 11C, 11Y.
[0055]
The K developing device 120K is driven by an electric motor (not shown) driving the fixing unit 107 via a power transmission system and a clutch (not shown). The M, C, Y developing units 120M, 120C, 120Y are electric motors (not shown) for driving the registration rollers 105, and are driven via a power transmission system and a clutch (not shown). The developing units 120M, 120C, 120Y, 120K are not always driven, but receive drive transmission by the clutch so that they can be driven at a predetermined timing.
[0056]
FIG. 1 is referred to again. The finisher 34 has a stacker tray, that is, a stacking and lowering tray 34hs and a sort tray group 34st, and a stacker discharging mode for discharging paper (printed paper and transferred paper) to the stacking and lowering tray 34hs, and a paper discharging mode to the sort tray group 34st. It has a sorter discharge mode.
[0057]
The paper fed from the printer 100 to the finisher 34 is conveyed in the upper left direction, passes through an inverted U-shaped conveyance path, switches the conveyance direction downward, and then discharges the paper in the stacker according to the set mode. In the mode, the sheet is discharged from the discharge port to the loading and lowering tray 34hs. In the sorter discharge mode, the sheet currently discharged in the sorter tray group 34st is discharged to the assigned sorter tray.
[0058]
When the sorter paper discharge mode is designated, the paper discharge controller in the finisher drives the sort tray group 34st placed at the lowermost stacking retract position to the use position shown by the two-dot chain line in FIG. Increase the interval. In the sorter discharge mode, one copy (or one copy) of the set number of copies or prints is performed. When the sorter discharge mode is set for the set sort, each transfer sheet on which the same original (image) is printed is sorted into the sort tray group 34st. Sorted and stored in each tray. When the sorter discharge mode is set for page sorting, each tray is assigned to each page (image), and each transfer sheet on which the same page is printed is stacked on one sort tray.
[0059]
FIG. 3 shows a system configuration of an image processing system of the copying machine shown in FIG. In this system, a reading unit 11 of a color document scanner 10 that optically reads a document scans a document with a lamp and forms a document image on a CCD of an SBU (sensor board unit). The original image, that is, reflected light of irradiation of the original is photoelectrically converted by a CCD to generate R, G, B image signals, converted into RGB image data on the SBU, subjected to shading correction, and output I / F (interface) 12. And sends it to an image data processor IPP (Image Processing Processor; hereinafter simply referred to as IPP) via an image data bus.
[0060]
The IPP performs separation generation (determination of whether an image is a character area or a photograph area: image area separation), background removal, scanner gamma conversion, filter, color correction, scaling, image processing, printer gamma conversion, and gradation processing. IPP is a programmable arithmetic processing unit that performs image processing. The image data transferred from the scanner 10 to the IPP is corrected for signal deterioration (signal deterioration of the scanner system) due to quantization into an optical system and a digital signal by the IPP, and is written into the frame memory 601.
[0061]
The system controller 630 has functions of a plurality of applications such as a scanner application, a facsimile application, a printer application, and a copy application, and controls the entire system. The image data bus / control command bus is a bus through which image data and control commands are transferred in a time-division manner.
[0062]
The CPU 605 of the system controller 630 controls the system controller 630. The control program of the system controller 630 is written in the ROM 604. The RAM 603 is a working memory used by the CPU 605. The NVRAM 602 is a non-volatile memory, and stores information of the entire system, such as a sub-scanning basic magnification adjustment value and a main scanning basic magnification adjustment value.
[0063]
The basic magnification adjustment values for the main scanning and the sub-scanning are set by the operation board 20 by measuring the magnification using a sample image in the system adjustment process. Here, the basic magnification adjustment value is a magnification adjustment in which the image read by the original scanner 10 and the image formed on the paper by the printer 100 based on the read image data have the same size when the same magnification is designated. Value.
[0064]
The setting values used by the color document scanner 10 and the color printer 100 for image reading control and image formation are set and stored in the NVRAM 602 as system default values in advance. These set values are written to the internal RAM of the process controller 131 via the control bus from the system default values stored in the NVRAM 602 when the system power is turned on. A CPU inside the process controller 131 sets and controls the operation of the document scanner and the image forming process of the printer 100 based on the set value of the RAM.
[0065]
The external device communication control 606 controls communication with an external device (for example, a copier, an image scanner, a personal computer, a server, a printer, and a facsimile of the same type) that requests image reading, image storage, or image printing. It controls the physical I / F for connection. When the external device communication control 606 connected to the network receives the data from the network, it sends only the contents of the communication data to the system I / F 607 from an electrical signal. The system I / F 607 logically converts the received data according to a prescribed protocol and sends the data to the CPU 605. The CPU 605 performs processing by determining the logically converted received data. Further, when the CPU 605 transmits data to the network, the transmission data is transmitted to the system I / F 607 and the external device communication control 606 in the reverse order of the reception, and transmitted as an electric signal on the network.
[0066]
A system I / F (interface) 607 controls transfer of document reading data, facsimile reception data, document data (printing instruction; drawing information) of a personal computer or a server, which is processed in the system by an instruction of the CPU 605, and a personal computer PC The document data (print information) is converted and transferred to print image data (image data). The work memory 600 is a work memory for image development (conversion from document data to image data) used in the printer. The frame memory 601 is a work memory for temporarily storing image data of a read image or a write image that is printed immediately while power is being supplied.
[0067]
The HDDC 650 is a hard disk HDD capable of storing image data of a read image or a write image, that is, image data and document data even when power supply is stopped, and its controller. The image data and the document data are coded or dot images. The FIFO buffer memory 609 performs a data transfer rate conversion when writing an input image to the frame memory 601. That is, the data is temporarily stored to absorb the difference between the data sending / receiving timings of the transfer source and the transfer destination, the difference in the data amount of the transfer unit, the transfer speed difference, and the like, and the data is received at the transfer timing and speed of the transfer source. Data is sent out at the transfer timing and speed of the transfer destination. Similarly, the FIFO buffer memory 608 performs speed conversion when transferring the image data of the frame memory 601 as an output image.
[0068]
The memory controller 610 controls input and output of images between the frame memory 601 and the HDDC 650 and the bus. In addition, according to the command received by the operation board 20 or the PC, the image stored in the HDDC is edited and processed using the frame memory 601. The memory controller 610 reads image information from the HDD of the HDDC 650 to the work memory 600 or the frame memory 601, and changes the print direction of the image on the transfer paper, rotates the image, and edits the combination of the image mainly by an image data address change operation. And density conversion by addition, subtraction, multiplication, and division of set values for image data, image trimming and synthesis by logical product operation or logical sum operation between image data, and writing of the image information processed in this way to the HDD, thereby forming various images. Processing and editing can be performed.
[0069]
The memory controller 610 further converts the document data (rendering information) received by the external device communication control 606 and written into the work memory 600 under the control of the CPU 605 according to the CPU 605's control of developing the document data into dot image data. The image data is converted into CMYK image data used by the printer 100 and developed in the frame memory 601. An expansion processing program for this is installed in the HDD.
[0070]
The process controller 131 of the color printer 100 stores a ROM in which a copier control program is recorded, a RAM in which data used by the control program is stored, and an adjustment value and jam data even after the power is turned off. A backup power supply (battery) for RAM, a CPU for reading a control program from the ROM and executing an instruction, a reset signal for outputting a reset signal for a certain period to the CPU when the power is turned on, and operating the CPU from the beginning of the control program, copying A plurality of timers and the like for generating each control timing of the machine are provided.
[0071]
The process controller 131 receives various inputs from various sensors, SWs, thermistors, and the like for determining the state of the copying machine, various motors for driving the copying machine, various SLs (solenoids), and various CLs (CLs). There is an input / output interface (input / output electric circuit) for generating output signals to a clutch, a heater, a lamp, and the like.
[0072]
The process controller 131 (CPU) performs image forming control, that is, process control, according to an image forming command of the system controller 630 in accordance with an input from the operation board 20 or an input from a PC.
[0073]
FIG. 4 shows the configuration of the image writing control unit 135c in the image forming unit 135 of the color printer 100. The print image control units 43K, 43Y, 43C, and 43M addressed to the respective color image signals of black K, yellow Y, cyan C, and magenta M control the entire write control unit 135c according to a command of the CPU of the process controller 131, and perform printing. The image signals Kp, Yp, Cp and Mp are transferred to the laser driving circuits 40K, 40Y, 40C and 40M.
[0074]
In the following, for simplicity of description, the element codes are shown by omitting the color component division codes K, Y, C and M.
[0075]
The beam synchronization detection device 38 detects a laser beam scanning reference position in the main scanning direction and sends a synchronization signal to the print image control unit 43 and the phase synchronization circuit 39. The write clock generation circuit 37 sends a CLK0 signal, which is a clock signal having a cycle of a main scanning pixel unit, to the phase synchronization circuit 39. The phase synchronization circuit 39 corrects the phase of CLK0 sent from the write clock generation circuit 37 with a synchronization signal (line synchronization signal; line synchronization pulse) sent from the beam synchronization detection device 38 and turns on the laser in units of main scanning pixels. The signal CLK (pixel synchronization signal; pixel synchronization pulse) is transferred to the laser drive circuit 40.
[0076]
The CPU inside the process controller 131 performs image processing such as setting a trim area on an image data frame (paper surface) and overlapping an arbitrary frame line on the image frame (image surface). Perform according to the specified contents. That is, the print image control unit 43 determines the print position of the incoming image signal on the paper based on the paper size, the trim area data, and the presence / absence of the boundary line provided by the process controller 131, in the main scanning count (the pixel synchronization pulse count). ) And the sub-scanning count (count of the line synchronization pulse) to stop the output of the image signal assigned to the trim area or to convert it to a non-recording signal. An image signal of several pixels inside the edge is converted into a line write signal (trim boundary line write).
[0077]
The laser drive circuit 40 sends the print image signals Kp, Yp, Cp, and Mp sent from the print image control unit 43 to the semiconductor laser 41 at the cycle of the CLK signal (pixel synchronization pulse) coming from the phase synchronization circuit 39 as a laser drive signal. The semiconductor laser 41 emits a beam according to the laser drive signal sent from the laser drive circuit 40. The polygon motor control circuit 42 performs PLL (Phase Locked Loop) control of the polygon motor to a predetermined rotation speed based on a signal from the print image control unit 43.
[0078]
The image resolution of each color image is determined by setting the main scanning pixel clock (setting of the cycle of the pixel synchronization pulse) and setting the polygon rotation speed (setting of the cycle of the line synchronization pulse). The main scanning pixel clock setting is performed by the write clock generation circuit 37. The polygon rotation speed is set by the polygon motor control circuit 42. The basic magnification adjustment for each of the main scanning and the sub-scanning and the magnification change for disposing the entire image so as to be inscribed in the trim edge are performed by finely adjusting the main scanning pixel clock setting and the polygon motor rotation cycle setting.
[0079]
FIG. 5 shows a circuit block of the operation board 20. The operation board 20 includes a liquid crystal touch panel (hereinafter, also referred to as a liquid crystal display or a display) 79 having a surface display function and an input reading function, an operation key matrix 271, a display LED (light emitting diode) 272, and the like. . The key matrix 271 includes a power key for instructing switching from the energy saving mode (the sleep mode or the low power mode) to the standby mode and vice versa. When the power key is pressed once while the energy saving mode is set, the mode is switched from the energy saving mode to the standby mode. When the power key is pressed once in the standby mode, the mode is switched from the standby mode to the energy saving mode.
[0080]
The main part of the electric control system of the operation board 20 shown in FIG. 5 communicates with the CPU 605 of the system controller 6301, reads the input of the operation board 20, and controls the CPU 253 for controlling display on the board. ROM 265, a RAM 266 for temporarily storing data at the time of control, a VRAM 268 for storing drawing data of the LCD 260, a liquid crystal display controller (LCDC) 267 connected to the VRAM 268 for performing drawing timing control of the LCD 260, and generates time data. There is a clock IC 273 to be used. The LCDC 267 is connected to an LCD 260 having a CFL light source as a backlight 270. The CPU 253 is further connected with an inverter 269 for driving the CFL backlight 270, a key matrix 271, an LED matrix 272 of display LEDs 261, an LED driving device 73 for driving these LEDs, and the like.
[0081]
The data bus to which the CPU 253 is connected is connected to a non-volatile RAM (NVRAM) 264 for storing image processing modes, status information, and usage results.
[0082]
As shown in FIG. 6, in addition to the liquid crystal touch panel 79, the operation board 20 has ten keys 80a, a clear / stop key 80b, a start key 80c, an initial setting key 80d, a mode clear key 80e, and a test print key 80f. The test print key 80f is a key for printing only one copy regardless of the set number of print copies and confirming a print result. By pressing the initial setting key 80d, the initial state of the machine can be arbitrarily customized. It is possible to arbitrarily set the size set when the paper size stored in the machine is set or when the reset key of the copy function is pressed. When the initial setting key 80d is operated, an "initial value setting" function for setting various initial values, an "ID setting" function, a "copyright registration / setting" function, and a "use record output" function are provided. A selection menu is displayed. In addition, it is also possible to select an application etc. which is preferentially selected when there is no operation for a certain period of time, to set the transition time to low power according to the International Energy Star plan, and to set the transition time to auto-off / sleep mode It is possible to set.
[0083]
On the liquid crystal touch panel 79, various function keys, messages indicating the state of the image forming apparatus, and the like are displayed. The liquid crystal display 79 is used to select and execute a “copy” function, a “scanner” function, a “print” function, a “facsimile” function, a “storage” function, an “edit” function, a “register” function, and other functions. Is displayed. An input / output screen determined by the function specified by the function selection key 80g is displayed. For example, when the "copy" function is specified, as shown in FIG. 6, the function keys 79a and 79b, the number of copies, and the A status message is displayed. When the operator touches the key displayed on the liquid crystal touch panel 79, the key indicating the selected function is turned gray. When the details of the function need to be specified (for example, the type of page printing), touching a key displays a setting screen for the detailed function. As described above, since the liquid crystal touch panel 79 uses the dot display device, it is possible to graphically perform an optimal display at that time.
[0084]
When the "copy", "print", or "facsimile" function is designated, as shown in FIG. 6, a "print entire image" key 81 and a "trim boundary line join" key 82 are included in function keys 79a. Is displayed. The “print the entire image” key 81 is grayed out in the initial state (default) indicating that “print the entire image” has been specified, and is accessible from the process controller 131 (the internal CPU) of the operation board 20. The print condition register (one memory area) on the RAM 266 stores “printing the entire image” instruction information.
[0085]
“Printing the entire image” means that the main scanning direction and the sub-scanning direction are individually set such that the entire surface of the original image (the image area in FIG. 10A) is inscribed in the trim edge (FIG. 10B). (E) in FIG. 10 and the trim editing mode of automatic scaling. When the user touches the “print entire image” key 81 in gray, which indicates the designation, the CPU 253 of the operation board 20 decodes (decodes) the input information and prints the print condition register. Is erased, and the "printing of the entire image" on the liquid crystal touch panel 79 is changed to a white block display meaning a non-designated state.
[0086]
In the case where "print the entire image" is not specified, the image outside the trim edge, that is, the trim area is erased and blank (margin) without reducing the image, for example, as shown in FIG. ) Means a trim edit mode without changing the magnification.
[0087]
When "print the entire image" is designated, the "trim boundary line addition" key 82 is activated, and its shape appears. In other words, only when "printing the entire image" is specified, "trim boundary line addition" can be specified. When the "trim boundary line addition" key 82 is clicked, the CPU 253 of the operation board 20 writes information designating trim boundary line addition in the print condition register, and switches the "trim boundary line addition" key 82 to gray display. When the “trim border line addition” key 82 displayed in gray is clicked, the CPU 253 deletes the trim boundary line addition designation information in the print condition register, and switches the “trim boundary line addition” key 82 to white block display. When "print the entire image" is not specified, the "trim boundary line addition" key 82 is the same as the background color and is only displayed like a shadow or a watermark. Does not respond.
[0088]
FIG. 7 shows an outline of trim control executed by (the CPU in) the process controller 131 in response to a print instruction from the CPU 605, which is an instruction for copy, printout or facsimile output. When there is a print instruction, the controller 131 reads the data of the print condition register of the operation board 20 into a RAM inside the controller 131 when the instruction is a user instruction from the operation board 20, and outputs the data from an external device such as a PC. In the case of the instruction, the printing conditions are read into the RAM via the system controller 630, and the writing I / F 134 and the printing preparation of the image forming unit 135 are performed with the contents set in the printing parameters of the printing condition register. Settings are made (step S1). In addition, the basic magnification adjustment value and the trim amount (the distance between each of the four trim edges to the four sides of the paper) in the obtained printing conditions are read from the NVRAM 602 and read into the RAM. Are set in the print image control unit 43 of the image write control unit 135c (step s2).
[0089]
In the following, the word “step” is omitted in parentheses, and step No. Only symbols are shown.
[0090]
Next, when the print condition register includes “print entire image” instruction information, the controller 131 sets the magnification of the image to be printed entirely based on the image size and paper size and the acquired trim amount set in the print parameters. Is calculated (s3, S4). In this embodiment, the product of the width of the image size (image plane) in the main scanning direction multiplied by the basic magnification adjustment value in the main scanning direction is referred to as the “trim value in the main scanning direction (left, The value in the main scanning direction is reduced to a value obtained by subtracting the sum of (right) (the width of the effective area on the paper), and the basic magnification adjustment value in the sub-scanning direction is added to the width of the image size in the sub-scanning direction. The magnification in the sub-scanning direction to reduce the multiplied product to “the value obtained by subtracting the sum of the trim values (front and rear) in the sub-scanning direction from the width in the sub-scanning direction of the paper (vertical width of the effective area on the paper)” Is calculated.
[0091]
Next, the controller 131 sets the calculated magnification in the main scanning direction and the calculated magnification in the sub scanning direction in the image writing control unit 135c (s5). This automatic adjustment (change) of the magnification affects the magnification of the trim area. The trim area is reset in the print image control unit 43 so that the trim area specified by the trim value based on the printing paper is trimmed at the changed magnification (s6).
[0092]
Next, when there is “trim boundary line addition” instruction information in the print condition register, the controller 131 gives the boundary line writing data to the print image control unit 43 (s7, S8). Then, printing process control, that is, image forming control is performed (S9).
[0093]
In this printing process, the print image control unit 43 determines the print position of the incoming image signal on the paper based on the paper size, the trim area data, and the presence / absence of the boundary line provided by the process controller 131, in accordance with the main scan count and the sub scan count. Tracking is performed by the scanning count, and the output of the image signal allocated to the trim area is stopped or converted to a non-recording signal (trimming). In the case where the boundary line is written, several pixels inside the edge of the trim area are further added. The image signal is converted into a line write signal (writing of a boundary line). In this case, for example, as shown in FIG. 10G, the entire original image is distributed over the entire area inside the trim area, and a print with a trim boundary added is obtained.
[0094]
If there is no boundary line writing, the boundary line is not written (s8) (s7, S9). In this case, for example, a print shown in FIG.
[0095]
Further, if there is no “printing of the entire image” instruction information in the printing condition register, the automatic magnification adjustment in steps s4 to s8 is not performed, so that the image is distributed over the entire image area (image surface) of the original image. For example, as shown in FIG. 10D, an image is missing in the trim area, but when the user's printout instruction magnification is 1 (1: 1), printing of an image of the same size as the original image is performed. Is obtained.
[0096]
-2nd Example-
In the first embodiment described above, in the main scanning direction and the sub-scanning direction, the main image is independently distributed in the main scanning direction and the sub-scanning direction so that the entire area of the original image is fully distributed in the entire area inside the trim area. Since the magnification is set, for example, as shown in FIG. 10 (e) or (g), a print in which the entire original image surface is distributed in the image formation effective area on the paper and the image distribution is orderly can be obtained. In most cases, the magnification in the main scanning direction is different from the magnification in the sub-scanning direction, and the similarity of the printed image to the original image is lost. High similarity is often required.
[0097]
Therefore, in the second embodiment, an automatic magnification mode in which the magnification in the main scanning direction and the magnification in the sub scanning direction are the same can be selected. In such a printout, for example, as shown in FIG. 10 (f) or FIG. 10 (h), a blank occurs in one direction, making it difficult to grasp the edge of the image surface of the original image. Therefore, in the second embodiment, the addition of an image frame ((i) in FIG. 10) representing the edge of the image plane of the original image can be selected.
[0098]
The hardware of the second embodiment is substantially the same as that of the first embodiment, except that an image frame line writing function is added to the print image control unit 43 of the image writing control unit 135c. The input / output function of the display panel 79 is extended and the trim control function of the process controller 131 is slightly changed accordingly.
[0099]
In other words, the print image control unit 43 of the second embodiment sets the paper size, the trim area data, the presence / absence of writing of the border line, the presence / absence of image frame line writing, and the image frame line writing provided by the process controller 131. Based on each end of the area in the main scanning direction and the sub-scanning direction, the printing position of the incoming image signal on the paper is determined by a main scanning count (pixel synchronization pulse count) and a sub-scanning count (line synchronization pulse count). And stops the output of the image signal assigned to the trim area or performs conversion to a non-recording signal. When the boundary line is written, the image signal of several pixels inside the edge of the trim area is further converted into a line write signal. When the image frame line writing is performed, the image signals of the start and end of the image area in the main scanning direction and the sub-scanning direction and several pixels inside the image area are converted into line writing signals.
[0100]
FIG. 8 shows a “copy” input screen of the operation board 20 of the second embodiment. When the "copy", "print" or "facsimile" function is designated in the second embodiment, as shown in FIG. 8, a "print entire image" key 81 and a "trim boundary" are included in the function keys 79a. In addition to the "line addition" key 82, a "vertical and horizontal independent scaling" key 83 and an "image frame line addition" key 84 are displayed. A "print entire image" key 81 and a "trim boundary line addition" key 82 are the same as those in the first embodiment.
[0101]
The "vertical and horizontal independent scaling" key 83 designates the same scaling in the main scanning direction and the sub-scanning direction when the white block is not specified, and there is "same scaling" instruction information in the print condition register. However, the “vertical and horizontal independent scaling” instruction information has been deleted. In this state, if there is a click on the "vertical and horizontal independent scaling" key 83, the operation board 20 switches it to gray display, erases the "same scaling" instruction information in the printing condition register, and replaces it with "vertical and horizontal". Independent scaling "instruction information is written.
[0102]
The “Add image frame line” key 84 is a key that is activated when “Same magnification” is designated, and its shape appears. In other words, "image frame line addition" can be designated only when the "vertical and horizontal independent scaling" key 83 is in white block display. When the “add image frame line” key 84 is clicked, the CPU 253 of the operation board 20 writes information designating the addition of the image frame line into the print condition register, and switches the “image frame line addition” key 84 to gray display. When the "Add image frame line" key 84 displayed in gray is clicked, the CPU 253 deletes the image frame line addition designation information in the print condition register, and switches the "Image frame line addition" key 84 to white block display. When "vertical and horizontal independent scaling" is designated, the "image frame line addition" key 84 is displayed in the same manner as the background color, such as a shadow or a watermark, and even if there is a click there, The CPU 253 does not respond.
[0103]
FIG. 9 shows the trim control executed by (the CPU in) the process controller 131 in response to a print instruction from the CPU 605 of the system controller 630 as a copy, printout or facsimile output instruction in the second embodiment. Here is an overview.
[0104]
As in the first embodiment, the controller 31 executes steps s1 to s4 to set the image to be printed on the entire surface in the main scanning direction from the image size and the paper size and the acquired trim amount set in the print parameters. The magnification and the magnification in the sub-scanning direction are calculated.
[0105]
Next, if there is vertical / horizontal independent scaling information, or if there is vertical / horizontal independent scaling information in response to the presence of the same vertical / horizontal scaling information, the controller 131 performs steps s5 to s5 as in the first embodiment. Execute S9. Thereby, for example, a print shown in FIG. 10E or 10G is obtained. However, if the same magnification designation information matches, the controller 131 sets the smaller one of the magnification in the main scanning direction and the magnification in the sub-scanning direction as the magnification in the main scanning direction and the magnification in the sub-scanning direction. It is set in the control unit (s12). This change in the magnification affects the magnification of the trim area. The trim area is reset in the print image control unit 43 so that the trim area defined by the trim value based on the printing paper is trimmed at the changed magnification (s13).
[0106]
Next, when the print condition register has “image frame line addition” instruction information, the controller 131 stores the image frame line writing data, the main scan direction end data and the sub-scan direction end data of the image area in the print image. This is given to the control unit 43 (s14, S15).
[0107]
In this printing process, the print image control unit 43 performs processing based on the paper size, trim area data, image frame line writing data, end data in the main scanning direction and end data in the sub-scanning direction of the image area provided by the process controller 131. The printing position of the incoming image signal on the paper is tracked by the main scanning count and the sub-scanning count, and the output of the image signal assigned to the trim area is stopped or converted to a non-recording signal (trimming). When writing is performed, the image signal of the start and end of the image area in the main scanning direction and the sub-scanning direction and the image signals of several pixels inside them are converted into a line writing signal (writing of image frame line). . In this case, for example, as shown in FIG. 10I, the entire original image is distributed over the entire area inside the trim area, and the start and end of the image area in the main and sub scanning directions, that is, the image area 4 A print with an image frame added to the side is obtained. The trim boundary is printed when the writing is specified, and the trim boundary is not printed when there is no trim boundary joining instruction information.
[0108]
Other configurations and functions of the second embodiment are the same as those of the first embodiment.
[0109]
【The invention's effect】
On the print, for example, as shown in FIG. 10 (g), (h) or (i), a dividing line (trim boundary / image frame line) between the original image area and the trim edge appears. The original image area can be clearly recognized.
[Brief description of the drawings]
FIG. 1 is a front view showing the appearance of a color copying machine according to a first embodiment of the present invention.
FIG. 2 is an enlarged vertical sectional view schematically showing an image forming mechanism of the printer 100 shown in FIG.
FIG. 3 is a block diagram showing an outline of an image processing system of the color copying machine shown in FIG.
FIG. 4 is a block diagram illustrating a functional configuration of an image writing control unit 135c in the image forming unit 135 illustrated in FIG. 3;
FIG. 5 is a block diagram showing electric elements of the operation board 20 shown in FIG.
6 is an enlarged plan view of a part of the operation board 20 shown in FIG.
FIG. 7 is a flowchart showing an outline of trim control of a process controller 131 shown in FIG. 3;
FIG. 8 is an enlarged plan view of a part of the operation board 20 of the copying machine according to the second embodiment of the present invention.
FIG. 9 is a flowchart showing an outline of trim control of a process controller 131 of a copying machine according to a second embodiment of the present invention.
10A is a plan view showing an image area of an original image to be printed out, FIG. 10B is a plan view showing an edge of a trim area set on printing paper, and FIG. 10C is an image without edge trimming; FIG. 3D is a plan view of the printout paper when printing, FIG. 4D is a plan view of the printout paper when edge trimming is performed, and FIG. 4E is a plan view in which the original image area is trimmed by adjusting respective magnifications in the main and scanning directions. FIG. 4F is a plan view of the printout paper reduced and arranged to fill the inside of the original image area, and the magnification in the main and scanning directions is adjusted to be the same so that only one of the main image and the sub-scanning direction of the original image area is filled inside the trim edge. (G) is a plan view of the printout paper in which the original image area is reduced and arranged to fill the inside of the trim edge by adjusting the magnifications in the main and scanning directions and a trim boundary is added. Plane , (H) shows printout paper in which only the main and sub-scanning directions of the original image area are reduced to the inside of the trim edge and the trim boundary line is added by adjusting the magnification in the main and scanning directions to be the same. And (i), the magnification in the main and scanning directions is adjusted to be the same, and only one of the original image areas in the main and sub scanning directions is reduced and arranged to be fully inside the trim edge. FIG. 3 is a plan view of a printout sheet to which image frame lines are added.
[Explanation of symbols]
10: Color document scanner 20: Operation board
30: Automatic document feeder 34: Finisher
34hs: loading and lowering tray 34ud: lifting platform
34st: Sort tray group
41M, 41C, 41Y, 41K: semiconductor laser
100: color printer PC: personal computer
PBX: Switch PN: Communication line
102: Optical writing unit 103, 104: Paper cassette
105: registration roller pair 106: transfer belt unit
107: Fixing unit 108: Output tray
110M, 110C, 110Y, 110K: Photoconductor unit
111M, 111C, 111Y, 111K: photosensitive drum
120M, 120C, 120Y, 120K: developing unit
160: transfer conveyance belt
CDIC: Image data interface control
IMAC: Image memory access control
IPP: Image data processor HDDC: Hard disk device

Claims (6)

A printer which forms an image represented by the image signal on paper based on the image signal;
Based on the entire size of the image represented by the image signal, the print paper size, and the edge trim amount, the whole image formed by the printer is scaled to a size inside the edge trim area of the print paper size and arranged inside the print paper size. Variable magnification means;
Means for combining an image signal representing a dividing line between the edge trim area and the edge trim area with the image signal supplied to the printer;
An image forming apparatus comprising: 2. The image processing apparatus according to claim 1, wherein the combining unit combines the image signal representing the dividing line with the image signal to be supplied to the printer when the dividing line addition is specified, and does not perform the combining when the dividing line addition is not specified. The image forming apparatus according to any one of the preceding claims. The image forming apparatus according to claim 1, wherein the division line includes a trim boundary inside a boundary of the edge trim region. The scaling means adjusts the entire image formed by the printer in each of the main scanning direction and the sub-scanning direction of the image to a size inside the edge trim area of the print paper size. 4. The whole image formed by the printer at a smaller magnification of the above magnification is adjusted to a size inside the edge trim area of the print paper size, and is arranged inside the edge trim area. Image forming apparatus. 5. The image forming apparatus according to claim 4, wherein the division line includes a region edge representing a region edge of the image adjusted at the smaller magnification. 6. A copying apparatus comprising: the image forming apparatus according to any one of claims 1 to 5; and a document scanner that reads a document image to generate an image signal and provides the image signal to the scaling unit.

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