JP2004134925A - Image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming apparatus with a simple configuration capable of automatically calculating a length of an original in main / sub scanning directions and forming an image with high quality on transfer paper. <P>SOLUTION: The image forming apparatus is configured such that a non light shield state of a read original of an indeterminate form is confirmed, an image storage section 5 stores read image data in a read maximum size area while an image read section 6 is in a non light shield state, scanning is started from a final end pixel of the maximum size area in the main / sub scanning directions in the maximum size area and a first white pixel detecting position in the main / sub scanning directions is used for a tail end position of the original in the main / sub scanning directions. Further, the lengths L1, L2 of the original in the main / sub scanning directions are automatically calculated as L1=L1max(D1max-m)/D1max and L2=L2max(D2max-m)/D2max, wherein D1max, D2max are the maximum number of dots in the main / sub scanning directions and L1max, L2max are the maximum lengths in the main / sub scanning directions, a color density level of the transfer paper at the original surrounding part is selected to be the same level as an original background, and the image with high quality can be formed with a simple configuration without causing a sense of incongruity on operations in comparison with those of a conventional image forming apparatus to a user while relieving the operation load. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image forming apparatus such as a copying machine, a printer, and a facsimile.
[0002]
[Prior art]
When an image is formed by an image forming apparatus such as a copier, a printer, or a facsimile, if the original is a standard size such as A4 or B4, a transfer paper of a corresponding size is selected and the image is formed immediately. However, if the original is of an irregular size, the user measures the size of the original with a ruler in advance, selects the transfer paper closest to the measured size and larger than the measured size, and places the original on the transfer paper. It was necessary to form an image.
[0003]
On the other hand, as a conventional technique, a method has been proposed in which a carriage is prescanned to automatically detect an end position in a scanning direction of a document in a main scanning direction and a sub-scanning direction to obtain a document size. I have. As a specific example, a document pressure plate for pressing a document is formed of a transparent member, and the end portion of the document is detected by optically discriminating a peripheral portion of the document where external light is incident and a document portion which blocks external light. (See Patent Document 1).
The end surface of the original is detected by coloring the contact surface of the contact glass of the original pressing platen with a color that can be distinguished from the original and optically distinguishing the peripheral portion of the original from the original. (Patent Document 2).
[0004]
However, according to these conventional techniques, when the original is of an irregular size and the transfer paper is larger than the original, the periphery of the transfer paper becomes black. The problem is that it becomes black.
[0005]
As an invention for solving this problem, a color changing means is provided in the document facing surface area of the document cover, the document facing surface area is changed to a color having a large difference in density from the background color of the document at the time of prescan, and the document is scanned at the time of scanning. By changing the opposing surface area to a color that has a small density difference from the background color of the document, the end position of the document can be clearly detected and read during pre-scanning based on the color density difference between the document and the cover area that does not face the document. At the time of scanning, there has been proposed an image reading apparatus in which the peripheral portion of the transfer sheet does not turn black even if the document has an irregular size, and the punch hole portion does not turn black even if there is a punch hole around the document ( Patent Document 3).
[0006]
However, according to this method, it is necessary to form the surface of the cover facing the document with a member that changes color, for example, with an applied voltage value. If the portion has a high color density, there is a problem that the detection accuracy of the document size is reduced.
[0007]
[Patent Document 1]
Japanese Utility Model Publication No. 60-18174
[Patent Document 2]
Japanese Utility Model Publication No. 60-181745
[Patent Document 3]
JP 2001-69317 A
[0008]
[Problems to be solved by the invention]
The present invention has been made in view of the current state of image forming operation of a conventional irregular-size original as described above, and has as its object to provide a simple configuration with no additional member and an image of an irregular-size original. An object of the present invention is to provide an image forming apparatus capable of automatically calculating a document size by reducing a user operation at the time of forming and forming a high quality image.
[0009]
[Means for Solving the Problems]
According to another aspect of the present invention, there is provided an image forming apparatus, comprising: an image reading unit configured to read a document placed at an image reading position; and an image storage configured to store image data read by the image reading unit. Means, image forming means for forming an image of the document on transfer paper based on image data read by the image reading means, or image data read from the image storage means; and forming an image of an irregular size document. An irregular-size image formation notification instruction means for issuing a notification instruction, and a document arranged at the image reading position is not externally shielded from the outside with respect to the image reading means based on a command from the irregular-size image formation notification instruction means. The maximum document size reading control means for reading in the maximum reading size area in the state, and the image reading is controlled by the control of the maximum document size reading control means. Means for calculating main and sub-scanning lengths of the document, respectively, based on a detection level of image data of the document read by the means, and based on a calculation result of the main and sub-scanning length calculating means, Image forming control means for forming an image of the original by image forming means.
[0010]
According to such a means, when an image of an irregular size document is formed, it is operated under the control of the original maximum size reading control means based on an image forming command of the irregular size document output from the image formation notification command means by a user operation. A document placed at the image reading position is read from the outside in a maximum reading area in a non-light-shielded state by the image reading means, and a main / sub scanning length calculating means is provided based on a detection level of image data of the read document. The main and sub-scanning lengths of the original are calculated with high accuracy, so that the user can feel a sense of incompatibility with the conventional image forming apparatus and can greatly operate with a simple configuration without adding a separate member. With the burden reduced, the main and sub scanning lengths of the document are automatically calculated with high accuracy without being affected by the color density of the document edge, and the color density of the transfer paper around the document is The level is the same as the background of the original, and the formation of a black portion on the transfer paper around the original and the formation of a black portion due to a light-transmitting portion such as a punch hole at the edge of the original are prevented, thereby forming a high-quality image. .
[0011]
Similarly, in order to achieve the above object, the image forming apparatus according to the second aspect of the present invention detects that the maximum reading area is in a non-light-shielded state from the outside in the image forming apparatus according to the first aspect. A non-light-shielding state detecting means for detecting the non-light-shielding state detected by the non-light-shielding state detecting means; It is assumed that.
[0012]
According to such means, in addition to the operation of the invention according to claim 1, if the non-light-shielding state detecting means does not detect that the maximum reading size area is in the non-light-shielding state from the outside, the irregular-size image formation is performed. Since the report command of the report command unit is not approved, image formation is performed while completely preventing user's erroneous operation.
[0013]
Similarly, in order to achieve the above object, an image forming apparatus according to a third aspect of the present invention is the image forming apparatus according to the first or second aspect, wherein the main / sub-scanning length calculating means includes a maximum document size reading control means. The detection is started from the pixel at the last end position in the main scanning direction and the sub-scanning direction of the irregular-size document read by the control of the above, and the position where the white pixel is detected is determined based on the preset pixel detection level. The main and sub-scanning lengths of the irregular-shaped document are calculated as the rear end position of the document in each direction.
[0014]
According to such means, the main / sub-scanning length calculating means starts detection from the pixel at the last end position in the main scanning direction and the sub-scanning direction of the irregular size document read under the control of the document maximum size reading control means. And calculating the main and sub-scanning lengths of the original by setting the position for detecting white pixels as the trailing end position of the original in each of the main and sub-scanning directions based on a preset pixel detection level. Alternatively, the operation of the invention described in claim 2 is performed.
[0015]
Similarly, to achieve the above object, an image forming apparatus according to a fourth aspect of the present invention is the image forming apparatus according to the first or second aspect, wherein the main / sub-scanning length calculating means is a maximum document size reading control means. The detection is started from the pixel at the final end position in the main scanning direction and the sub-scanning direction of the irregular-size document read by the control of the above, based on a preset pixel detection level, a position for detecting pixels other than black pixels, The main and sub scanning lengths of the irregular size document are calculated as the rear end positions of the documents in the main and sub scanning directions, respectively.
[0016]
According to such means, the main / sub-scanning length calculating means starts detection from the pixel at the last end position in the main scanning direction and the sub-scanning direction of the irregular size document read under the control of the document maximum size reading control means. Based on a pixel detection level set in advance, a position for detecting a pixel other than a black pixel is set as a rear end position of the document in each of the main and sub scanning directions, and the main and sub scanning lengths of the document are calculated, respectively. The operation according to the first or second aspect of the present invention is performed.
[0017]
Similarly, in order to achieve the above object, an image forming apparatus according to a fifth aspect of the present invention is different from the image forming apparatus according to the third or fourth aspect in that pixel detection of each of R, G, and B pixels is performed. A color level setting means for setting each of the reference levels is further provided.
[0018]
According to such means, in addition to the effect of the invention according to claim 3 or 4, the pixel detection reference levels of the R, G, and B pixels of the original image are set in advance by the color level setting means. This setting prevents the variation in color information of the image forming atmosphere and the decrease in detection accuracy at the edge of the document due to the color information of the background of the document. And higher quality image formation.
[0019]
Similarly, in order to achieve the above object, an image forming apparatus according to a sixth aspect of the present invention is different from the image forming apparatus according to the third or fourth aspect, in that a main scanning of an arbitrary plurality of lines in the main scanning direction is performed. The average value of the read pixel counter values in the main scanning direction and the average value of the read pixel counter values in the sub-scanning direction of unit dots at arbitrary plural positions in the sub-scanning direction are respectively referred to as the read pixel counter value in the main scanning direction and the sub-scanning direction. And a correction operation control means for causing the main / sub-scanning length calculation means to perform a correction operation as the read pixel counter value.
[0020]
According to such a means, in addition to the effect of the invention according to claim 3 or 4, the correction operation control means allows the average value of the read pixel counter values in the main scanning direction of arbitrary plural lines in the main scanning direction. , And the average value of the reading pixel counter values in the sub-scanning direction of the unit dots at arbitrary plural positions in the sub-scanning direction are respectively referred to as the main scanning direction reading pixel counter value and the sub-scanning direction reading pixel counter value. Since the correction operation is performed on the sub-scanning length calculating means, the main scanning length and the sub-scanning length of the document are calculated with higher accuracy.
[0021]
Similarly, in order to achieve the above object, an image forming apparatus according to a seventh aspect of the present invention provides a main / sub-scanning length calculating means which is different from the image forming apparatus according to any one of the first to sixth aspects. In addition, there is further provided a report information introduction setting means for introducing and setting the main scanning length data and the sub-scanning length data calculated by the above into the report information of the irregular size image formation report commanding means.
[0022]
According to such a means, in addition to the effect of the invention according to any one of claims 1 to 6, the main scanning length data and the main scanning length data calculated by the main / sub scanning length calculating means by the notification information introduction setting means are provided. Since the sub-scanning length data is introduced and set in the notification information of the irregular-size image formation notification instruction means, the operation load on the user is reduced, and the image of the irregular-size document is automatically formed.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described below with reference to FIGS.
FIG. 1 is a block diagram showing the overall configuration of the present embodiment, FIG. 2 is an explanatory diagram of a file of image reading data of the present embodiment, and FIG. 3 is a diagram showing a panel operation at the time of setting an irregular size original in the present embodiment. FIG. 4 is a flowchart illustrating the operation of calculating the length of the irregular-size document in the main scanning direction according to the present embodiment. FIG. 5 is a flowchart illustrating the operation of calculating the length of the irregular-size document in the sub-scanning direction according to the embodiment. It is.
[0024]
In the present embodiment, as shown in FIG. 1, a CPU 1 for controlling the entire operation is provided, a ROM 2 storing a control program, and various data written at the time of the control operation. RAM 3 to be read and read, an operation unit 4 for inputting various command signals by a user, an image reading unit 6 for reading a document placed at an image reading position, a standard tray and a manual tray for storing transfer paper of a standard size. A paper feed unit 7 for supplying a transfer paper on which an image of the original is formed, and an image forming unit 8 for forming an image of the original on the transfer paper, and an image reading unit 6 An RGB separation processing unit 6a that performs separation processing of RGB color components on image data is connected.
[0025]
Similarly, an image storage unit 5 in which image data read by the image reading unit 6 is stored via the bus B to the CPU 1, an irregular size original set notification instruction unit 9 for issuing a command for setting an irregular size original, A main scanning direction image final position detecting unit 14 for detecting the final position of the image in the scanning direction, a sub-scanning direction image final position detecting unit 15 for detecting the final position of the image in the sub-scanning direction, and image formation of an irregular size original. An irregular size document image forming control unit 10 to be controlled is connected.
[0026]
Further, the CPU 1 releases the pressure plate for pressing the document to the document at the image reading position via the bus B, and determines whether or not the document is externally in the non-light-shielded state. , A red reference value setting unit 12R for setting the judgment reference level of the R pixel, a green reference value setting unit 12G for setting the judgment reference level of the G pixel, and a blue reference value setting unit 12B for setting the judgment reference level of the B pixel. A pixel determining unit 12 for determining a level of a pixel with respect to a reference value, a main scanning direction reading pixel counter 13a for counting pixels in the main scanning direction, and a sub scanning direction reading pixel counter 13b for counting pixels in the sub scanning direction. ing.
In the present embodiment, the CPU 1 stores, in the main scanning direction, an average value of pixel counter values in an arbitrary plurality of lines in the main scanning direction in the main scanning direction, and a pixel counter value in a sub-scanning direction of an arbitrary plurality of dots in the sub-scanning direction. A correction operation control means is provided for causing the main / sub-scanning length calculation means to perform a correction operation using the average values of the above as a pixel counter value in the main scanning direction and a pixel counter value in the sub-scanning direction, respectively.
[0027]
In the present embodiment, the image data read by the image reading unit 6 and stored in the image storage unit 5 is, as shown in FIG. Stored as a file indicating the RGB detection data of each unit dot, corresponding to the maximum readable line MAXline and corresponding to the maximum unit dot MAXdot readable from the first unit dot in the main scanning direction in the maximum read size area. Have been.
[0028]
The operation of the present embodiment having such a configuration will be described.
First, the operation of calculating the length in the main scanning direction of an irregular size original will be described with reference to FIGS. 1, 3, and 4. FIG.
When the user presses the manual feed key of the scanning unit 4 shown in FIG. 3A, the manual feed key is reversed as shown in FIG. 3B, and the selection of the manual feed tray is confirmed. When the # key of the numeric keypad is depressed from b), an irregular-size original set signal is input to the irregular-size original set notification command unit 9 and the display shown in FIG.
When the user who has performed the operation according to the message shown in FIG. 3C presses the automatic size input start key, the operation starts, and the instruction of the CPU 1 confirms the selection of the manual feed tray in step S1 of the flowchart of FIG. Then, the process proceeds to step S2, where it is confirmed that the # key has been pressed, the process proceeds to step S3, where the press of the automatic size input start key has been confirmed, and the process proceeds to step S4, where the original placed at the original reading position, or The document light-shielding setting determination unit 11 determines whether or not the pressure plate is in an open state and the document is not in a non-light-shielded state from outside with respect to the document conveyed to the document reading position by the ADF (Auto Document Feeder). .
[0029]
If it is determined in step S4 that the document is not in the non-light-shielded state from the outside, the process proceeds to step S5, where the image reading unit 6 driven and controlled by the irregular-size document image forming control unit 10 instructs the CPU 1 to issue an instruction. An original of an irregular size is read in the reading maximum size area in a non-light-shielded state, and is decomposed into RGB signals by an RGB decomposing unit 6a. Shading correction for correction is performed. The obtained RGB detection data for each unit dot can be read from the first unit dot in the main scanning direction, with the read line corresponding to the maximum readable line MAXline in the sub-scanning direction. The maximum unit dot MAXdot is stored in the image storage unit 5 as a data file corresponding to the maximum unit dot MAXdot.
Next, proceeding to step S6, for example, the first line is selected as a line for measuring the length of the irregular-size image in the main scanning direction by the instruction of the CPU 1, and n = 1 is set, and the process proceeds to step S7. The main scanning direction image final position detector 14 operated by a command from the CPU 1 detects the final end position m of the image in the main scanning direction in the maximum read size area.
[0030]
In this case, when the rear position in the main scanning direction of the irregular size document is detected by white pixels on the background of the document, the R reference value “11011100” is set as the pixel reference value by the red reference value setting unit 12R. , The green reference value setting unit 12G sets the G determination reference value “11011100”, and the blue reference value setting unit 12B sets the B determination reference value “11011100”. When the detection is started from the final end position M, it is determined that the R, G, and B components of the unit dot are at higher levels than the R, G, and B determination reference values, respectively. This is set as a pixel determination reference of the unit 12.
[0031]
Next, proceeding to step S8, the M-th unit dot of the first line (n = 1) is read from the image storage unit 5, and proceeding to step S9. The pixel determination unit 12 determines whether the component Fr, the G component Fg, and the B component Fb each satisfy the following condition.
[0032]
Fr> 11011100
Fg> 11011100 (1)
Fb> 11011100
[0033]
If it is determined in step S9 that the condition of the expression (1) is not satisfied, the process proceeds to step S11, where M-1 is set instead of M according to a command from the CPU 1, and the main scanning direction read pixel counter 13a is reset. +1 is counted, the process returns to step S8, and the same process is repeated.
If it is determined in step S9 that the condition of equation (1) is satisfied, the process proceeds to step S10, where the length L1 of the irregular-size original in the main scanning direction is changed according to a command from the CPU 1 in the main scanning direction. The maximum dot number is D1max, and the maximum readable length in the main scanning direction is L1max.
[0034]
L1 = L1max · (D1max−m) / D1max (2)
[0035]
When the rear position of the irregular-size original in the main scanning direction is detected by a pixel other than the black pixels on the background of the original, the red reference value setting unit 12R sets the R determination reference value “0000001010” as the pixel determination reference value. Is set by the green reference value setting unit 12G, the G judgment reference value “00001010” is set by the blue reference value setting unit 12B, and the B judgment reference value “00001010” is set by the green reference value setting unit 12B. Starting detection from the final end position M of the image, first, the R, G, and B components of the unit dot are at lower levels than the R determination reference value, the G determination reference value, and the B determination reference value, respectively. The pixel determination unit 12 sets the pixel determination standard.
[0036]
Then, in step S8 of the flowchart of FIG. 4, the M-th unit dot of the first line (n = 1) is read from the image storage unit 5, and the process proceeds to step S9, where the M-unit dot is read by the command of the CPU 1. The pixel determination unit 12 determines whether the R component Fr, the G component Fg, and the B component Fb of the unit dot satisfy the following condition.
[0037]
Fr <00001010
Fg <00001010 (3)
Fb <00001010
[0038]
Further, the process proceeds to step 10, and similarly to the case where the rear position of the irregular-size document in the main scanning direction is detected by white pixels on the background of the document, the length L1 in the main scanning direction is calculated based on the above-described equation (2). Is calculated.
[0039]
As described above, in any case where the rear position of the irregular-size original in the main scanning direction is detected by pixels other than white pixels or black pixels on the background of the original, for example, when the end position of the original in the main scanning direction is detected. If the count value of the main scanning direction reading pixel counter 13a is 3000 counts, the maximum readable length Lmax in the main scanning direction is 38, 1 cm, and the resolution of the unit dot is 600 dips, the unit dot count up to Lmax = 38, 1 cm When the number is calculated based on the resolution, 600 × (38.1 / 2.54) = 9000. Based on the equation (2), the length L1 of the irregular-shaped original in the main scanning direction is calculated by the following equation. .
[0040]
L1 = 381 × (9000-3000) /3000=25.4 cm (4)
[0041]
Next, the operation of calculating the length in the sub-scanning direction of an irregular size original will be described with reference to FIG.
The operations in steps S11 to S15 in FIG. 5 are the same as the operations in steps S1 to S5 in FIG. 4 already described, and therefore, will not be described repeatedly.
In step S16 of the flowchart of FIG. 5, for example, the first dot unit is selected as the dot unit for measuring the length of the irregular-size image in the sub-scanning direction by the instruction of the CPU 1, and N = 1 is set. In step S17, the sub-scanning direction image final position detector 15 operated by a command from the CPU 1 detects the final end position m of the image in the sub-scanning direction in the maximum read size area.
[0042]
In this case, when the rear position in the sub-scanning direction of the irregular-size document is detected by white pixels on the background of the document, an R determination reference value “11011100” is set as the pixel determination reference value by the red reference value setting unit 12R. , The G reference value “11011100” is set by the green reference value setting unit 12G, and the B judgment reference value “11011100” is set by the blue reference value setting unit 12B. When the detection is started from the final end position m, it is determined that the R, G, and B components of the unit dot are at higher levels than the R determination reference value, the G determination reference value, and the B determination reference value. This is set as a pixel determination reference of the unit 12.
[0043]
Next, proceeding to step S18, the unit dots of the m-th line of the first (N = 1) unit dot group are read from the image storage unit 5, and proceeding to step S19, which is read out by the instruction of the CPU1. The pixel determination unit 12 determines whether the R component Fr, the G component Fg, and the B component Fb of the unit dot satisfy the condition of Expression (1).
[0044]
If it is determined in step S19 that the condition of equation (1) is not satisfied, the process proceeds to step S21, where m-1 is set instead of m in accordance with a command from the CPU 1, and the sub-scanning direction read pixel counter 13b is set. +1 is counted, the process returns to step S18, and the same process is repeated.
If it is determined in step S19 that the condition of the expression (1) is satisfied, the process proceeds to step S20, where the length L2 of the irregular-shaped original in the sub-scanning direction is changed according to a command from the CPU 1 in the readable sub-scanning direction. The maximum dot number is D2max, and the maximum readable length in the sub-scanning direction is L2max.
[0045]
L2 = L2max · (D2max−m) / D2max (5)
[0046]
When the rear position of the irregular-size original in the sub-scanning direction is detected by a pixel other than the black pixels on the background of the original, the red reference value setting unit 12R sets the R determination reference value “00000010” as the pixel determination reference value. Is set by the green reference value setting unit 12G, the G determination reference value “00001010” is set by the blue reference value setting unit 12B, and the B determination reference value “00001010” is set by the blue reference value setting unit 12B. Starting the detection from the final end position m of the image, first, the R, G, and B components of the unit dot are at lower levels than the R determination reference value, the G determination reference value, and the B determination reference value, respectively. The pixel determination unit 12 sets the pixel determination standard.
[0047]
Then, in step S18 of the flowchart of FIG. 5, the m (m = 1) unit dot of the first (N = 1) unit dot group is read from the image storage unit 5, and the process proceeds to step S19. The pixel determination unit 12 determines whether the read R component Fr, G component Fg, and B component Fb of the unit dot each satisfy the condition of Expression (3).
[0048]
If the determination in step S19 is Yes, the process proceeds to step 20, where the rear position of the irregular-size original in the sub-scanning direction is detected based on the above-described equation (2) in the same manner as in the case where the white pixel on the original background is detected. Thus, the length L2 in the sub-scanning direction is calculated.
[0049]
As described above, in any case where the rear position in the sub-scanning direction of an irregular size original is detected by pixels other than white pixels or black pixels on the background of the original, for example, when the end position of the original in the sub-scanning direction is detected. If the count value of the sub-scanning direction reading pixel counter 13b is 4000 counts, the maximum readable length L2max in the sub-scanning direction is 50, 8 cm, and the resolution of the unit dot is 600 dips, the unit dot count up to L2max = 50, 8 cm When the number is obtained based on the resolution, 600 · (50.8 / 2.54) = 12000, and the length L2 of the irregular-shaped original in the sub-scanning direction is calculated by the following equation based on the equation (5). .
[0050]
L2 = 508 × (12000-4000) /12000=33.86 cm (6)
[0051]
According to the present embodiment, it is automatically calculated that the size of the irregular-size document is 25.4 cm in the main scanning direction and 33.86 cm in the sub-scanning direction.
[0052]
Further, in the present embodiment, the correction calculation of the irregular-size original is performed under the control of the correction calculation control means of the CPU 1 in accordance with the selection command from the operation unit 4 by the user.
In this case, regarding the main scanning direction, in addition to the count value 3000 of the main scanning direction reading pixel counter 13a for the first line used in the calculation process described above, the main scanning direction reading pixel for the 4000 line at the center position is used. Considering the count value 3005 of the counter 13a and the count value 2990 of the main scanning direction reading pixel counter 13a of the 8000th line at the rear end position, the correction operation control means of the CPU 1 sets the main scanning direction reading pixel counter 13a to (3000 + 3005 + 2990). ) /3=2998.3.
[0053]
In the sub-scanning direction, in addition to the count value 4000 of the sub-scanning direction read pixel counter 13b of the first (N = 1) unit dot group used in the above-described calculation process, the 3000 dot-th central dot position is used. The count value 4004 of the sub-scanning direction reading pixel counter 13b and the count value 3990 of the 6000 dot-th sub-scanning direction reading pixel counter 13b at the rear end position are taken into consideration, and the sub-scanning direction reading pixel counter 13b Is corrected to (4000 + 4004 + 3990) / 3 = 2998.
[0054]
Then, in accordance with a command from the CPU 1, the main scanning direction length L1 of the irregular-size original is corrected by setting m = 2998.3 in the equation (2), and m = 3998 in the equation (5). The length L2 in the sub-scanning direction is corrected.
[0055]
Further, in the present embodiment, when calculating the size of the irregular-size document described above, the edge of the document is detected by white pixels of the background of the document, and the edge of the document is detected by pixels other than the black pixels of the background of the document. By independently setting a pixel determination reference value for detection by the red reference value setting unit 12R, the green reference value setting unit 12G, and the blue reference value setting unit 12B, variations in color information of the image forming atmosphere, The detection accuracy is prevented from lowering due to the color information of the background of the document, and the length of the document in the main / sub-scanning direction is detected with high accuracy even when the color density at the edge of the irregular size document is high.
[0056]
When the calculation of the length of the document in the main and sub-scanning directions is completed in this way, an image is to be formed on the display of the scanning unit 4 under the control of the irregular size document image forming control unit 10 in accordance with a command from the CPU 1. The main / sub scanning direction length data of the document and an instruction message of closing the platen to make the document light-shielded are displayed, and the user confirms the main / sub-scanning direction of the document, closes the platen and puts the document in the light-shielding state. I do.
Then, in accordance with a command from the CPU 1, the image reading unit 6 reads the document image set in the light-shielded state, and based on the read image data subjected to shading correction, the image forming unit 8 sets the irregular size set in the light-shielded state. A high-quality image is formed on a fixed-size transfer paper which is larger than the original and the size of which is closest to the original, while maintaining the same color density level as the original background at the periphery of the original.
[0057]
As described above, according to the present embodiment, in the state in which the document shading setting determination unit 11 determines that the document of the irregular size placed at the image reading position is externally in the non-light blocking state, The image reading unit 6 reads the image data in the maximum reading area in the non-light-shielded state and stores the image data in the image storage unit 5, and then starts scanning from the last end pixel in the main / sub scanning direction of the maximum size area. A pixel position where a pixel other than a white pixel or a black pixel is first detected in the main / sub-scanning direction based on a preset pixel detection reference level is set as a rear end position of the document in the main scanning direction, respectively (2) The length L1 of the document in the main scanning direction by the formula and the length L2 of the document in the sub-scanning direction by the formula (5) can be automatically calculated with high accuracy independently of the color density at the edge of the document. .
Then, on a fixed size transfer paper that is larger than the original and closest to the original size, the periphery of the original is maintained at the same brightness as the background of the original, a black portion is formed around the original, and light such as punch holes around the original is formed. It is possible to form a high quality image by preventing the formation of a black portion by the transmission portion.
Furthermore, according to the present embodiment, each pixel determination reference value of RGB at the time of calculating the size of the document is set in accordance with the variation in the color information of the image forming atmosphere and the decrease in the detection accuracy due to the color information of the background of the document. By setting them independently, it is possible to prevent variations in the color information of the image forming atmosphere and a decrease in detection accuracy due to the color information of the background of the document. It becomes possible to form a high-quality image by detecting the end in the scanning direction with higher accuracy.
[0058]
【The invention's effect】
According to the first aspect of the present invention, a document placed at the image reading position is read by the image reading unit, the read image data is stored in the image storage unit, and the image read by the image forming unit is read by the image reading unit. An image of a document is formed on transfer paper based on data or image data read from the image storage means. However, when an image of an irregular size document is formed, an image output from the image formation notification command means by a user operation is performed. Based on an image forming command for a fixed-size document, the document placed at the image reading position is read from the outside in a non-light-shielded reading maximum size area by image reading means operated under the control of the document maximum size reading control means. The main / sub scanning length calculating means calculates the original data based on the detection level of the image data of the read original. Main and sub-scan length of are calculated accurately, respectively.
For this reason, with a simple configuration without additional members, the user does not feel uncomfortable with the conventional image forming apparatus, and the color density at the document edge is reduced while the operation load is greatly reduced. The main and sub scanning lengths of the original are automatically calculated with high accuracy without being influenced by the original, the color density level of the transfer paper around the original is the same as the background of the original, and the black area on the transfer paper around the original is It is possible to form a high-quality image by preventing the formation and formation of a black portion due to a light-transmitting portion such as a punch hole at the edge of a document.
[0059]
According to the second aspect of the present invention, in addition to the effect obtained by the first aspect of the present invention, if the non-light-shielded state detecting means does not detect that the maximum reading area is in the non-light-shielded state from the outside, the irregular-shaped Since the report command of the size image formation report command unit is not approved, it is possible to completely prevent user's erroneous operation and perform image formation.
[0060]
According to the third aspect of the present invention, the main / sub-scanning length calculating means detects detection from the pixels at the final end positions in the main scanning direction and the sub-scanning direction of the irregular-size document read under the control of the document maximum size reading control means. Starting, based on a preset pixel detection level, a position for detecting a white pixel is defined as a rear end position of the document in each of the main and sub scanning directions, and the main and sub scanning lengths of the document are calculated, respectively. It is possible to realize the effects obtained by the invention described in claim 1 or 2.
[0061]
According to the fourth aspect of the present invention, the main / sub-scanning length calculating means detects the detection from the pixels at the final end positions in the main scanning direction and the sub-scanning direction of the irregular-size document read under the control of the document maximum size reading control means. Starting, based on a pixel detection level set in advance, calculating the main and sub-scanning lengths of the original by setting the positions for detecting pixels other than black pixels as the rear end positions of the originals in the main and sub-scanning directions, respectively. Thereby, it is possible to realize the effect obtained by the invention described in claim 1 or 2.
[0062]
According to the fifth aspect of the present invention, in addition to the effects obtained by the third or fourth aspect of the present invention, the color level setting means sets the pixel detection reference level of each of the R, G, and B pixels of the original image. Since each is set in advance, it is possible to prevent the variation of the color information of the image forming atmosphere and the deterioration of the detection accuracy at the edge of the document due to the color information of the background of the document, so that the calculation of the main and sub scanning lengths of the document can be accurately performed. To form a higher quality image of a document.
[0063]
According to the sixth aspect of the invention, in addition to the effect obtained by the third or fourth aspect of the present invention, the read pixel counter value of the arbitrary plural lines in the main scanning direction in the main scanning direction is corrected by the correction operation control means. And the average value of the reading pixel counter values in the sub-scanning direction of the unit dots at arbitrary plural places in the sub-scanning direction are respectively used as the reading pixel counter value in the main scanning direction and the reading pixel counter value in the sub-scanning direction. Since the correction operation is performed on the main / sub scanning length calculating means, the main scanning length and the sub scanning length of the document can be calculated with higher accuracy.
[0064]
According to the seventh aspect of the present invention, in addition to the effects obtained by the first aspect of the present invention, the main scanning calculated by the main / sub scanning length calculating means by the notification information introduction setting means is provided. Since the long data and the sub-scanning length data are introduced and set in the notification information of the irregular size image formation notification instruction means, it is possible to reduce the operation burden on the user and automatically perform the image formation of the irregular size document. Will be possible.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an overall configuration of an embodiment of the present invention.
FIG. 2 is an explanatory diagram of a file of image reading data according to the embodiment;
FIG. 3 is an explanatory diagram of a panel operation at the time of setting an irregular-size original according to the embodiment;
FIG. 4 is a flowchart showing a calculation operation of a main scanning direction length of an irregular-size document according to the embodiment;
FIG. 5 is a flowchart showing an operation of calculating the length in the sub-scanning direction of the irregular-size document according to the embodiment;
[Explanation of symbols]
1 CPU
4 Operation unit
5 Image storage unit
6 Image reading unit
6a RGB decomposition processing unit
8 Image forming unit
9 Irregular size original set report command section
10 Non-standard size original image forming control unit
11 Document Shading Setting Judgment Unit
12 Pixel judgment unit
12R Red reference value setting section
12G green reference value setting section
12B Blue reference value setting section
13a Main scanning direction reading pixel counter
13b Sub-scanning direction read pixel counter
14 Main scanning direction image final position detection unit
15 Sub-scanning direction image final position detection unit

Claims (7)

Image reading means for reading a document arranged at the image reading position;
Image storage means for storing image data read by the image reading means;
Image forming means for forming an image of the document on transfer paper based on image data read by the image reading means or image data read from the image storage means;
Irregular size image formation notification instruction means for instructing image formation of an irregular size document,
The maximum size of a document that causes the image reading means to read a document arranged at the image reading position from the outside in a non-light-shielded reading maximum size area based on a command from the irregular size image formation notification command means. Size reading control means;
Main / sub scanning length calculating means for calculating the main / sub scanning length of the document based on the detection level of the image data of the document read by the image reading means under the control of the document maximum size reading control means,
An image forming apparatus comprising: an image forming control unit configured to form an image of the document by the image forming unit based on a calculation result of the main / sub scanning length calculating unit. A non-light-shielding state detecting means for detecting that the reading maximum size area is in a non-light-shielding state from the outside,
2. The image according to claim 1, further comprising: command approval means for approving a notification command of the irregular-size image formation notification command means when the non-light-shielded state detection means detects the non-light-shielded state. Forming equipment. The main / sub-scanning length calculating means starts detection from the pixel at the last end position in the main scanning direction and the sub-scanning direction of the irregular-size document read under the control of the document maximum size reading control means, and sets a preset pixel detection level. And calculating the main and sub-scanning lengths of the irregular-shaped original, respectively, by using a position where a white pixel is detected as a rear end position of the original in each of the main and sub-scanning directions based on 3. The image forming apparatus according to 2. The main / sub-scanning length calculating means starts detection from the pixel at the last end position in the main scanning direction and the sub-scanning direction of the irregular-size document read under the control of the document maximum size reading control means, and sets a preset pixel detection level. And calculating the main and sub-scanning lengths of the irregular-sized original, respectively, by using the position for detecting pixels other than black pixels as the rear end position of the original in the main and sub-scanning directions, based on The image forming apparatus according to claim 1 or 2. 5. The image forming apparatus according to claim 3, further comprising a color level setting unit for setting a pixel detection reference level of each color of R, G, and B pixels. The average value of the read pixel counter values in the main scanning direction of the arbitrary plural lines in the main scanning direction and the average value of the read pixel counter values of the unit dots in the sub scanning direction at arbitrary plural places in the sub scanning direction are respectively used in the main scanning. 4. A correction operation control means for causing the main / sub-scan length calculation means to perform a correction operation as the read pixel counter value in the direction and the read pixel counter value in the sub-scan direction. The image forming apparatus according to claim 4. There is further provided a report information introduction setting means for introducing and setting the main scanning length data and the sub-scanning length data calculated by the main / sub-scanning length calculation means in the notification information of the irregular-size image formation notification instruction means. The image forming apparatus according to claim 1, wherein:

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