JP2005269433A - Image reader - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image reader capable of preventing the occurrence of moire in the case of reading a dot original. <P>SOLUTION: The magnification of an electronic image generated by reading an original image by a line sensor 14 (reading means) in the image reader 1 is determined by optical zooming and electronic zooming by an optical system consisting of a head part 11, a mirror part 12 and a lens part 13. In this image reader 1, the initial value of the magnification of the optical zooming in a main scanning direction is set to values that are away from 100% by 1% or more, and the initial value is corrected by electronic zooming so as to make the final magnification to be 100%. Thus, the density of dots of the dot original and reading accuracy of a CCD through the optical system are greatly deviated from an integer-multiple so that the occurrence of moire can be prevented in the case of reading the dot original. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an image reading apparatus that reads a document image, and more particularly to an image reading apparatus that can prevent the occurrence of moire when a halftone document is read.

  An image reading apparatus used in a copying apparatus, a scanner apparatus, or the like is adjusted so that when a document image is read, an image 100% larger than the document image is generated. The conventional image reading apparatus can read a document image so as to generate an image obtained by enlarging or reducing the document image. In particular, the image is enlarged / reduced at a specific change magnification frequently used, such as 141% for enlarging an A4 size original image to A3 size or 70% for reducing an A3 size original image to A4 size. The image reading apparatus is set so that reading can be easily performed.

A conventional image reading apparatus reads an image by detecting light reflected from a light source by irradiating a document image through an optical system having a lens with a CCD. Further, in order to determine the size of the image, the conventional image reading apparatus electronically processes the optical zoom by changing the focal length in the optical system and the data read by the CCD to enlarge or reduce the image. In combination with electronic zoom. Patent Document 1 discloses an image processing apparatus using both optical zoom and electronic zoom. In the conventional image reading apparatus, the optical system is adjusted so that the magnification of 100% in the image reading at the same magnification is within the error of about 0.2%, and the error of the magnification that cannot be controlled by the adjustment of the optical system is It is set to correct using electronic zoom.
JP 2002-77596 A

  By the way, since the CCD provided in the image reading apparatus is used for image reading, the reading accuracy is the same when reading any original image. A CCD having an image reading accuracy of, for example, 600 dpi is used for the CCD of the image reading apparatus. Also, a halftone dot document such as a newspaper may be used as a document image. The density of halftone dots of the halftone original is determined by the type of halftone original, and halftone originals having a halftone density of 75 dpi, 100 dpi, 120 dpi, etc. are usually used. As described above, the halftone dot density of the halftone original and the reading accuracy of the CCD may have an integer multiple relationship. As described above, the conventional image reading apparatus is adjusted so that the magnification by the optical system is shifted within an error of about 100% to 0.2%, so that the density of halftone dots and the reading accuracy of the CCD are an integral multiple. When the image reading device reads a halftone dot document that has the following relationship, the density of the halftone dots and the reading accuracy of the CCD through the optical system are slightly deviated from an integral multiple, resulting in a read image. Moire occurs. As described above, the conventional image reading apparatus has a problem that moire tends to occur when a halftone document is read.

  The present invention has been made in view of such circumstances, and an object thereof is to provide an image reading apparatus capable of preventing the occurrence of moire due to an error in magnification of image reading by an optical system. There is to do.

  An image reading apparatus according to the present invention reads a document image for one line in a main scanning direction, and reads an original image by sequentially reading the document image line by line in a sub scanning direction substantially orthogonal to the main scanning direction. An image reading apparatus comprising: an optical system that optically defines a magnification when the reading unit reads a document image; and a data processing unit that electronically changes the size of the electronic image generated by the reading unit. The optical system is adapted to define an initial value of a magnification in the main scanning direction when the reading unit reads a document image to a magnification that is 1% or more apart from 100%, and the data processing unit includes the main processing unit. The size in the main scanning direction of the electronic image generated by the reading means under the initial value of the magnification in the scanning direction should be changed to be approximately 100% with respect to the original image. No, characterized in that are.

  In the present invention, in an image reading apparatus using both optical zoom and electronic zoom, the initial value of the magnification in the main scanning direction in the optical zoom is set to a value separated from 100% by 1% or more. The electronic zoom is used to correct the magnification to 100%.

  In the image reading apparatus according to the present invention, the optical system is characterized in that the initial value of the magnification in the sub-scanning direction when the reading unit reads a document image is defined to be approximately 100%.

  In the present invention, the initial value of the magnification in the sub-scanning direction of the optical zoom is set to approximately 100%.

  The image reading apparatus according to the present invention is characterized in that the optical system defines an initial value of a magnification in the main scanning direction when the reading unit reads a document image to a magnification larger than 100%. To do.

  In the present invention, the initial value of the magnification in the main scanning direction of the optical zoom is set to a value larger than 100%.

  In the image reading apparatus according to the present invention, the optical system can set a magnification at which the reading unit reads a document image to a value obtained by multiplying an initial value of the magnification by a specific change magnification. In addition, the initial value of the magnification in the main scanning direction when the reading unit reads the document image is defined to be a value different from the specific change magnification.

  In the image reading apparatus according to the present invention, the specific change magnification is a ratio between a plurality of A size sizes, a ratio between a plurality of B size sizes, or a ratio between an A size size and a B size size. And

  Further, in the present invention, the magnification of the electronic image generated by reading the original image is changed between the A size, the B size, or the A size and the B size. The magnification of the optical zoom can be set so as to be a specific change magnification such as the above, and the initial value of the magnification in the main scanning direction of the optical zoom is set to a value different from the specific change magnification.

  In the present invention, by setting the initial value of the magnification in the main scanning direction of the optical zoom in the image reading apparatus away from 100%, the dot density of the halftone original and the reading accuracy of the CCD through the optical system Is greatly deviated from an integral multiple, so that the occurrence of moire can be prevented when a halftone original is read.

  In the present invention, since the initial value of the optical zoom magnification in the sub-scanning direction is set to approximately 100%, it is not necessary to adjust the optical zoom in the sub-scanning direction and correct the magnification by the electronic zoom. , The processing load can be reduced.

  In the present invention, since the initial value of the magnification in the main scanning direction of the optical zoom is set to a value larger than 100%, the magnification can be corrected with the electronic zoom by thinning out the data. The zoom process can be simplified and deterioration of the image quality of the electronic image can be suppressed.

  Furthermore, in the present invention, by setting the initial value of the magnification in the main scanning direction of the optical zoom to a value different from a specific change magnification such as a change magnification for changing the size, which change magnification Even when a document image is read by the method, the final optical zoom magnification obtained by multiplying the initial value by the change magnification does not become 100%, so that the generation of moire when a halftone document is read is prevented. The present invention has an excellent effect.

Hereinafter, the present invention will be specifically described with reference to the drawings showing embodiments thereof.
FIG. 1 is a schematic sectional side view showing an example of the configuration of an image reading apparatus 1 of the present invention. The image reading apparatus 1 is provided with an original table 10 made of a transparent glass plate on which an original image is placed. Below the document table 10, a head unit 11 including a light source that irradiates light to the document table 10 in a line shape in the main scanning direction which is a depth direction with respect to the drawing is provided. The light emitted from the light source of the head unit 11 to the document table 10 is reflected by the document image placed on the document table 10. The image reading apparatus 1 further includes a plurality of mirrors, reflects the light reflected from the document image and guides the light toward the line sensor 14 described later, and converges the light guided from the mirror unit 12. A lens unit 13 and a line sensor (reading unit) 14 that is an optical sensor that detects light converged by the lens unit 13 are provided. The line sensor 14 is configured by arranging a number of CCDs in the main scanning direction. The head unit 11, the mirror unit 12, and the lens unit 13 constitute an optical system according to the present invention.

  The head unit 11 moves along the lower surface of the document table 10 in the sub-scanning direction orthogonal to the main scanning direction, and the mirror unit 12 also moves as the head unit 11 moves. The line sensor 14 detects light reflected from the document image to read one line in the main scanning direction of the document image, and sequentially reads the entire document image line by line as the head unit 11 moves.

  FIG. 2 is a functional block diagram showing a functional configuration of a processing system of the image reading apparatus of the present invention. The image reading apparatus 1 includes a control unit 21 including a CPU that performs calculations and a RAM that stores temporary information associated with the calculations. The control unit 21 is connected to a drive unit 22 that drives the head unit 11, the mirror unit 12, and the lens unit 13, such as a stepping motor that moves the head unit 11. The driving unit 22 moves the head unit 11 and drives the internal configuration of the head unit 11, the mirror unit 12, and the lens unit 13, so that the magnification when the line sensor 14 reads the document image is optically determined. The optical zoom can be changed to The drive unit 22 can change the magnification of the optical zoom in the main scanning direction by changing the focal length of the light detected by the line sensor 14. The drive unit 22 can change the magnification of the optical zoom in the sub-scanning direction by changing the sub-scanning speed by the movement of the head unit 11. The control unit 21 controls the movement of the head unit 11 and the magnification of the optical zoom by controlling the operation of the drive unit 22.

  The control unit 21 is connected to the line sensor 14 and an image memory 24 that stores an electronic image generated by the line sensor 14 reading a document image line by line. The control unit 21 performs an electronic zoom process for changing the size of the electronic image stored in the image memory 24, and functions as a data processing unit according to the present invention. The control unit 21 is connected to an interface unit 26 connected to an external information processing apparatus 3 such as a personal computer (PC). The interface unit 26 receives an instruction to read a document image transmitted from the information processing apparatus 3, and the control unit 21 generates an electronic image according to the reading instruction. Further, the control unit 21 causes the interface unit 26 to transmit the generated electronic image to the information processing device 3. The controller 21 is connected to a ROM 25 that stores setting information such as optical zoom and electronic zoom magnification. The control unit 21 performs processing based on setting information stored in the ROM 25.

  As the change magnification for changing the size of the electronic image generated by reading the document image, a plurality of specific change magnifications that are frequently used are determined in advance. FIG. 3 is a chart showing an example of a specific change magnification determined in advance. Since the image size is frequently changed so that the image can be recorded on a recording paper having a different paper size from the recording paper on which the original image is recorded, the change magnification corresponding to the change in the paper size is set in advance. It has been established. For example, as shown in FIG. 3, a change magnification of 70% corresponds to converting the paper size from A3 to A4 or from B4 to B5. By changing the optical zoom magnification from the initial value, the control unit 21 performs the optical zoom so that the change magnifications of 70%, 82%, 87%, 115%, 123%, and 141% shown in FIG. 3 can be realized. Control.

  In the image reading apparatus 1 of the present invention, the initial value of the magnification in the main scanning direction of the optical zoom is set to a value separated from 100% by 1% or more. Further, the control unit 21 performs processing for correcting the size in the main scanning direction of the electronic image read under the optical zoom whose initial magnification in the main scanning direction is approximately 100% by the electronic zoom. FIG. 4 is a chart showing an example of setting the initial value of the optical zoom magnification and the electronic zoom magnification. For example, by setting the initial value of the optical zoom magnification to 108% and the electronic zoom magnification to 93%, the total magnification becomes 100%, and an electronic image having a size of 100% of the original image can be generated. it can. Thus, by setting the optical zoom magnification to a value that is greatly separated from 100% by 1% or more, the density of halftone dots of the halftone original and the reading accuracy of the CCD of the line sensor 14 through the optical system are reduced. Since the state is greatly deviated from the integral multiple, the occurrence of moire can be prevented when a halftone original is read.

  In the image reading apparatus 1 of the present invention, the initial value of the optical zoom magnification is set apart from 100% only in the main scanning direction, and the initial value of the optical zoom magnification in the sub-scanning direction is 100%. In the sub-scanning direction, image data read in units of lines are overlapped to generate an electronic image, so that moire is unlikely to occur. Therefore, it is not necessary to keep the initial value of the optical zoom magnification from 100% in the sub-scanning direction. Since it is not necessary to adjust the optical zoom in the sub-scanning direction and to correct the magnification by the electronic zoom, the processing load performed by the control unit 21 can be reduced.

  In the image reading apparatus 1 of the present invention, the initial value of the magnification in the main scanning direction of the optical zoom is set to a value different from a predetermined specific change magnification. FIG. 5 is a chart showing the final optical zoom magnification when the optical zoom magnification is changed at a specific change magnification with respect to the initial value of the optical zoom magnification in the main scanning direction. FIG. 5A shows an example in which the initial value of the magnification in the main scanning direction of the optical zoom is set to the same value as the specific change magnification. For example, when the initial value of the magnification in the main scanning direction of the optical zoom is set to 115%, which is one of the change magnifications, when the document image is read at a change magnification of 87% in order to reduce the document image. The magnification in the main scanning direction of the final optical zoom is 100%. Since 100% in this case is a value that is shifted by about 0.2% from 100%, the density of halftone dots of the halftone original and the reading accuracy of the CCD of the line sensor 14 through the optical system are integers. When the halftone original is read, moiré occurs. In this way, when the initial value of the magnification in the main scanning direction of the optical zoom is set to one of the change magnifications, moire may occur. Therefore, in the present invention, in the main scanning direction of the optical zoom. The initial value of the magnification is set to a value different from a predetermined specific change magnification. FIG. 5B shows an example in which the initial value of the magnification in the main scanning direction of the optical zoom is set to a value different from the specific change magnification. As shown in FIG. 5B, when the initial value of the magnification in the main scanning direction of the optical zoom is set to a value different from the specific change magnification, the final optical is obtained regardless of the change magnification. Since the zoom magnification in the main scanning direction does not become 100%, the occurrence of moire can be prevented.

  Further, in the image reading apparatus 1 of the present invention, the initial value of the magnification in the main scanning direction of the optical zoom is set to a value larger than 100%. That is, in the setting example shown in FIG. 4, the combination of the initial value of the optical zoom in the main scanning direction and the magnification of the electronic zoom is such that the initial value of the optical zoom is greater than 100%. Is set. When the initial value of the magnification of the optical zoom is 100% or less, it is necessary to perform data interpolation when correcting the magnification with the electronic zoom. Image quality deteriorates. In particular, since data exists only at one end of the image, interpolation processing is difficult. By setting the initial value of the magnification in the main scanning direction of the optical zoom to a value larger than 100%, it is possible to correct the magnification with the electronic zoom by thinning out data, and thus the processing in the control unit 21 is simplified. At the same time, deterioration of the image quality of the electronic image can be suppressed.

  In the present embodiment, the image reading apparatus 1 of the present invention is configured to change the optical zoom magnification. However, the present invention is not limited to this, and the optical zoom magnification is fixed to the initial value. It may be a simple form. In the present embodiment, the image reading apparatus 1 according to the present invention is an image reading apparatus connected to the information processing apparatus 3. However, the present invention is not limited to this, and a part of the facsimile apparatus or the copying apparatus is used. The form which comprises may be sufficient.

It is a typical sectional side view which shows the structural example of the image reading apparatus of this invention. It is a functional block diagram which shows the function structure of the processing system of the image reading apparatus of this invention. It is a chart which shows the example of the specific change magnification defined beforehand. It is a graph which shows the example of a setting of the initial value of the magnification of an optical zoom, and the magnification of an electronic zoom. 10 is a chart showing final optical zoom magnifications when the optical zoom magnification is changed at a specific change magnification with respect to the initial value of the optical zoom magnification in the main scanning direction.

Explanation of symbols

1 Image reading device 11 Head (optical system)
12 Mirror part (optical system)
13 Lens part (optical system)
14 Line sensor (reading means)
21 Control unit (data processing means)
3 Information processing equipment

Claims (5)

A reading unit that reads an original image for one line in the main scanning direction and sequentially reads the original image line by line in the sub-scanning direction substantially orthogonal to the main scanning direction, and the reading unit reads the original image. In an image reading apparatus comprising: an optical system that optically defines a magnification for reading; and a data processing unit that electronically changes the size of an electronic image generated by the reading unit.
The optical system is intended to define an initial value of a magnification in the main scanning direction when the reading unit reads a document image to a magnification that is separated from 100% by 1% or more,
The data processing means should change the size in the main scanning direction of the electronic image generated by the reading means under the initial value of the magnification in the main scanning direction so as to be approximately 100% with respect to the document image. An image reading apparatus characterized by that.   2. The image reading apparatus according to claim 1, wherein the optical system is adapted to regulate an initial value of a magnification in a sub-scanning direction when the reading unit reads a document image to about 100%.   3. The optical system according to claim 1, wherein the optical system is configured to define an initial value of a magnification in a main scanning direction when the reading unit reads a document image to a magnification larger than 100%. Image reading device. The optical system is
It is possible to set a magnification at which the reading unit reads a document image to a value obtained by multiplying an initial value of the magnification by a specific change magnification,
Further, the initial value of the magnification in the main scanning direction when the reading unit reads the document image should be set to a value different from the specific change magnification. The image reading apparatus according to any one of the above.   5. The image according to claim 4, wherein the specific change magnification is a ratio between a plurality of A size sizes, a ratio between a plurality of B size sizes, or a ratio between an A size size and a B size size. Reader.

Images