JP2001148767A - Image reader and shading correcting method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image reader which can avoid inadequate shading correction due to diffuse reflected light generated when a reference member is lit. SOLUTION: The image reader is equipped with a lighting system including a light source 5 and a reflecting member 6. This lighting system is so constituted that the quantity of light at a read position 2 on a reference white plate 1 is maximum (100%) and the quantity of light at a position 3 corresponding to the front end of a document 4 is 30% of the quantity of light at the read position on the reference white plate 1.

Description

The present invention relates to an image reading apparatus and a shading correction method.

[0001]

2. Description of the Related Art Conventionally, in a digital copying machine or the like,
An image that reads an image on a document with a CCD line sensor, etc.
A reading device is used. For such an image reading device
The illumination system includes a light source for illuminating the original.
This illumination system has a long xenon lamp as a light source.
Pumps are used. The lighting system is a xenon lamp
The light emitted from is directly on a platen such as a platen glass
Illuminates the original and guides it from the xenon lamp to the reflector
The original is illuminated by the reflected light reflected
The illumination distribution on the original by this illumination system is
The distribution has a certain width in the sub-scanning direction. Also,
The image reading device has a sensitivity for each pixel of the CCD line sensor.
Irregularity of illumination light to the original
Cos ^FourOriginal image to correct
Illuminated by CCD line sensor prior to image scanning
The reference member in the state, for example, a reference white plate is read, and this reading is performed.
Uses the data output from the CCD line sensor
To perform shading correction on the scanned original image.
It is configured as follows.

[0002]

In recent years, the size of the image reading apparatus has been reduced, and the distance between the position of the reference white plate and the position of the leading end of the document placed on the document table has been shortened with the downsizing. When reading the original, the leading end of the original approaches the reference white plate. However, when the position corresponding to the leading end of the document on the platen approaches the arrangement position of the reference white plate, the illuminance distribution on the document by the illumination system has a width in the sub-scanning direction. When illuminating, the leading end of the document placed on the document table is illuminated together with the reference white plate. When the leading edge of the document is illuminated, reflected light from the leading edge of the document is reflected on the lower surface of the document table, and this reflected light returns to the illumination system, so-called reflected light is generated. The illuminance at the reading portion on the reference white plate increases.
As a result, the reference white plate cannot be read in an appropriate illumination state, and an appropriate shading correction coefficient cannot be calculated. That is, proper shading correction cannot be performed.

[0003] An object of the present invention is to provide an image reading apparatus and a shading correction method capable of avoiding improper shading correction caused by diffuse reflection light generated when illuminating a reference member.

[0004]

According to the first aspect of the present invention,
An illumination means for illuminating the original placed on the platen,
Reading means for reading an image on the document illuminated by the illuminating means, a shading correction reference member disposed near a leading end of the document placed on the document table, and the illuminating means Shading correction means for performing shading correction of an image on the document read by the reading means based on a value obtained by reading the illuminated predetermined portion of the reference member by the reading means, wherein the lighting means comprises: When the reference member is illuminated, the amount of illumination received by the leading end of the document placed on the platen is set within a predetermined ratio range of the maximum illumination light at a predetermined portion of the reference member. It is characterized by the following.

According to a second aspect of the present invention, in the image reading apparatus according to the first aspect, the predetermined ratio range is equal to or less than 50% of a maximum illumination light amount at a predetermined portion of the reference member and is not more than 1%.
It is characterized by being in a range of 0% or more.

According to a third aspect of the present invention, there is provided an illumination unit for illuminating a document placed on a document table, a reading unit for reading an image on the document illuminated by the illumination unit, and A shading correction method for an image reading apparatus, comprising: a shading correction reference member disposed at a position near a leading end of a document placed on a table. Illuminating the reference member with the illumination light amount received by the unit within a predetermined ratio range of the maximum illumination light amount at a predetermined portion of the reference member, and reading the predetermined portion of the reference member illuminated by the illumination means by the reading means Performing shading correction of an image on the document read by the image reading unit based on a value obtained by reading the reference member. And having a degree.

According to a fourth aspect of the present invention, in the shading correction method according to the third aspect, the predetermined ratio range is a range of 50% or less and 10% or more of a maximum illumination light amount in a predetermined portion of the reference member. It is characterized by.

According to a fifth aspect of the present invention, there is provided an illumination unit for illuminating a document placed on a document table, a reading unit for reading an image on the document illuminated by the illumination unit, and the document. A shading correction reference member arranged at a position near the leading end of the document placed on the table, and a value obtained by reading a predetermined portion of the reference member illuminated by the illumination means by the reading means. A shading correction coefficient calculating unit for calculating a shading correction coefficient used for shading correction of the image read by the reading unit, wherein the shading correction coefficient calculating unit illuminates the reference member with the illumination unit. Increasing the amount of illumination at a predetermined portion of the reference member that receives diffusely reflected light from the leading edge of a document placed on a table And corrects the shading correction coefficient according to the min.

According to a sixth aspect of the present invention, in the image reading apparatus of the fifth aspect, the shading correction coefficient calculated based on a value obtained by reading a predetermined portion of the reference member is S, Where α is an increase in the amount of illumination light at the predetermined portion, the corrected shading correction coefficient S ′ is calculated based on an arithmetic expression of S ′ = S / (1 + α).

According to a seventh aspect of the present invention, in the image reading apparatus of the fifth aspect, the number of the predetermined portions of the reference member is plural, and each of the predetermined portions is arranged along the sub-scanning direction of the reading means. It is a feature that has been performed.

The invention according to claim 8 is an illumination means for illuminating a document placed on a document table, reading means for reading an image on the document illuminated by the illumination means, and A shading correction method for an image reading apparatus, comprising: a shading correction reference member disposed at a position near a leading end of a document placed on a table; wherein the illumination means illuminates the reference member, and the reading means A step of reading a predetermined portion of the reference member, a step of calculating a shading correction coefficient based on a value obtained by reading the predetermined portion of the reference member, and a process of diffusing a document placed on the platen from a leading end of the document. Correcting the shading correction coefficient in accordance with an increase in the amount of illumination light at a predetermined portion of the reference member receiving the reflected light; and Characterized in that a step of performing shading correction of the image on the document read by the reading means based on Edingu correction coefficient.

According to a ninth aspect of the present invention, in the shading correction method according to the eighth aspect, a shading correction coefficient calculated based on a value obtained by reading a predetermined portion of the reference member is set to S, and Where α is an increase in the amount of illumination light at the predetermined portion, the corrected shading correction coefficient S ′ is calculated based on an arithmetic expression of S ′ = S / (1 + α).

According to a tenth aspect of the present invention, in the shading correction method according to the eighth aspect, the number of predetermined portions of the reference member is plural, and each of the predetermined portions is arranged along the sub-scanning direction of the reading means. It is a feature that has been performed.

[0014]

Embodiments of the present invention will be described below with reference to the drawings.

(First Embodiment) FIG. 1 is a view schematically showing the configuration of a main part of an image reading apparatus according to a first embodiment of the present invention, and FIG. 2 is a document surface of the image reading apparatus shown in FIG. It is a figure which shows the upper illumination distribution.

In the image reading apparatus, as shown in FIG. 1, a reference white plate 1 is fixed on an upper surface, and a platen glass 9 on which a document 4 can be placed adjacent to the reference white plate 1; And an illumination system for illuminating the original 4 and the reference white plate 1 placed on the document. This illumination system has a light source 5 composed of a xenon tube, and a reflecting member 6 that reflects light emitted from the light source 5 toward the platen glass 9 side. The original or the reference white plate 1 on the platen glass 9 is configured to be illuminated by the reflected light from the light source 6. A part of the light reflected from the reading surface of the document or the reference white plate 1 is guided to and reflected by the reflection mirror 8 through the slit 7, and the reflected light is reflected by a plurality of reflection mirrors (not shown) and an optical lens (not shown). (Not shown) through which the image on the document 4 can be read in the main scanning direction.
An image is formed on a CD line sensor (not shown). The illumination system and the CCD line sensor are incorporated in an optical moving mechanism (not shown) that can move in the sub-scanning direction. The optical moving mechanism is configured to be able to move in the sub-scanning direction when reading a document image, and to move to the reading position of the reference white plate 1 by a CCD line sensor performed prior to reading scanning. Have been.

The illuminance distribution on the original reading surface by the light source 5 is as follows.
As shown in FIG. 2, it has a width in the sub-scanning direction. here,
The document reading surface refers to the upper surface of the platen glass 9. When reading the reference white plate 1, the optical moving mechanism is moved to the reading position of the reference white plate 1, the light from the light source 5 illuminates the reference white plate 1, and the illuminated reading portion 2 of the reference white plate 1 is read. Read by CCD line sensor. Since the illuminance distribution on the original reading surface by the light source 5 has a width in the sub-scanning direction, the leading end of the original 4 placed on the platen glass 9 is also illuminated. The illumination system adjusts the illumination light amount at the position 3 corresponding to the leading end of the document 4 so that the illumination light amount at the reading portion 2 of the reference white plate 1 becomes maximum (100%). It is configured so as to be 30%. This can be realized by considering the relative directions and positions of the light source 5 and the reflecting member 6 with respect to the reading surface.

By setting the illumination light amount at the position 3 corresponding to the leading end of the document 4 to 30% of the illumination light amount at the reading portion of the reference white plate 1,
The reflected light from the leading end of the document 4 is reduced, and the influence of the reflected light on shading correction is 0.2%.
And has substantially no effect on the calculation of the shading correction coefficient. Therefore, an appropriate shading correction coefficient can be calculated, and this shading correction can be appropriately performed. Further, setting the illumination light amount at the position 3 corresponding to the leading end of the document 4 to 30% of the maximum illumination light amount at the reading portion of the reference white plate 1 is such that the document 4 and the reference white plate 1 It does not prevent close placement. That is, miniaturization is not hindered.

In this embodiment, the reference white plate 1
So that the illumination light amount at the reading portion of the reference white plate 1 becomes the maximum (100%) and the illumination light amount at the position 3 corresponding to the leading end of the document 4 becomes 30% of the illumination light amount at the reading portion of the reference white plate 1. Constituent, but manuscript 4
It is not necessary to limit the illumination light amount at the position 3 corresponding to the leading end of the document 4 to 30% of the illumination light amount at the reading portion of the reference white plate 1. What is necessary is just to set it in the range of 50% to 10% with respect to the illumination light amount (100%) at the reading portion of the reference white plate 1. Similarly, if the illumination light amount at the position 3 corresponding to the leading end of the document 4 is within the range of 50% to 10% with respect to the illumination light amount (100%) at the reading portion of the reference white plate 1, the reflection from the leading end of the document is similarly performed. The influence of light on the calculation of the shading correction coefficient can be reduced, and the shading correction coefficient can be calculated properly.

(Second Embodiment) Next, a second embodiment of the present invention will be described with reference to FIG. FIG. 3 is a diagram showing a calculation procedure of a shading correction coefficient in the second embodiment of the image reading apparatus of the present invention. Note that this embodiment has basically the same configuration as the above-described embodiment, and the present embodiment will be described using the reference numerals shown in FIG.

In the above-described first embodiment, in order to calculate an appropriate shading correction coefficient, the illumination light amount at the position 3 corresponding to the leading end of the document 4 is calculated based on the illumination light amount (100% In the present embodiment, the illumination system is configured to be 30% of the original 4 placed on the platen glass 9 when the reference white plate 1 is illuminated by the illumination system. The shading correction coefficient is configured to be corrected in accordance with an increase in the amount of illumination light at the reading portion 2 of the reference white plate 1 that receives diffuse reflected light from the section.

More specifically, when reading the reference white plate 1, the optical moving mechanism is moved to the reading position of the reference white plate 1, and the reference white plate 1 is illuminated by the light from the light source 5; 1 is read by the CCD line sensor. The illuminance distribution on the original reading surface by the light source 5 is
As shown in FIG. 2, since the document 4 has a width in the sub-scanning direction, the leading end of the document 4 placed on the platen glass 9 is also illuminated, and the leading end of the document 4 placed on the platen glass 9 is illuminated. The reflected light from the light source may greatly increase the amount of illumination light at the reading portion 2 of the reference white plate 1.

Due to the large amount of illumination light at the reading portion 2 of the reference white plate 1 due to the reflected light, the output value from the CCD line sensor becomes a value corresponding to a state brighter than normal brightness (normal lighting state). When shading correction is performed based on this output value, the read image data is corrected to data having a darker density than normal. For example, if a copy is output using the data after the shading correction, a fog occurs in the copy image.

The amount of increase in the amount of illumination light at the reading portion 2 of the reference white plate 1 due to the reflected light from the leading end of the document 4 mainly depends on the configuration of the illumination system, the correspondence between the reading portion 2 of the reference white plate 1 and the leading end of the document 4. It depends on the distance between the positions 3 and the density of the leading end of the document 4. Here, the configuration of the illumination system and the reference white plate 1
The distance between the reading region 2 and the corresponding position 3 of the leading end of the document 4 can be expressed as a device-specific value. Manuscript 4
Since there is usually a margin at the end of the document 4, the density at the leading end of can be expressed by a value corresponding to this margin, that is, the blank sheet density (0.08). Therefore, the amount of increase in the amount of illumination light at the reading portion 2 of the reference white plate 1 due to the reflected light is
This can be set as a device-specific value α.

Therefore, the reference white plate 1 by the reflected light is used.
If the shading correction coefficient calculated based on the read value of the reading portion 2 of the reference white plate 1 is corrected in accordance with the increase amount of the illumination light amount in the reading portion 2, the shading in consideration of the increase amount of the illumination light amount in the reading portion 2 A correction coefficient can be determined. In the correction of the shading correction coefficient, the shading correction coefficient calculated based on the read value of the reading portion 2 of the reference white plate 1 is S, the value unique to the apparatus is α, and the corrected shading correction coefficient is S ′. , By the following equation (1).

S ′ = S / (1 + α) (1) Correcting the shading correction coefficient in this way, and performing shading correction on the read image data using the corrected shading correction coefficient, thereby achieving proper shading. The corrected image data can be obtained.

The procedure of the shading correction will be described with reference to FIG. 3. First, in order to read the reference white plate 1 before scanning the document 4, the optical moving mechanism is moved to the reading position of the reference white plate 1, The reference white plate 1 is illuminated by the light from 5. Then, the read portion 2 of the illuminated reference white plate 1 is read by a CCD line sensor, and the output of the CCD line sensor is converted into digital data by A / D conversion. Next, a shading correction coefficient S is calculated based on the digital data,
The calculated shading correction coefficient S is calculated according to the above (1).
It is corrected according to the formula. The corrected shading correction coefficient S 'is held in the shading correction circuit.

Next, reading scanning of the document 4 is started. The image data obtained by this reading scan is A / D
After the conversion, the image data is input to the shading correction circuit, and the image data read based on the shading correction coefficient S ′ corrected by the shading correction circuit is subjected to shading correction. Then, predetermined image processing is performed on the image data after the shading correction, and the image data is output after the image processing.

As described above, in the present embodiment, the shading calculated based on the read value of the reading portion 2 of the reference white plate 1 in accordance with the amount of increase in the amount of illumination light at the reading portion 2 of the reference white plate 1 due to the reflected light. Since the correction coefficient is corrected, appropriate shading correction can be performed, and deterioration of image data due to the reflected light can be prevented.

Further, in the present embodiment, a condition for expressing the increase in the amount of illumination light at the reading portion 2 of the reference white plate 1 due to the reflected light from the leading end of the document 4 as a device-specific value α. The density at the leading edge of the white paper
8), the effect of the reflected light is expected to be maximized, and it is possible to eliminate the occurrence of image fogging, which is a particular problem in the deterioration of image data.

In this embodiment, one reading portion 2 is provided in the sub-scanning direction. However, a plurality of portions are read in the sub-scanning direction, and a shading correction coefficient is calculated using the average value. It can also be configured as follows.

[0032]

As described above, according to the image reading apparatus of the present invention, the illuminating means for illuminating the original placed on the original table and the image on the original illuminated by the illuminating means are read. Means for reading, a reference member for shading correction disposed near the leading end of the document placed on the document table, and a predetermined portion of the reference member illuminated by the illumination means. Shading correction means for performing shading correction of the image on the document read by the reading means based on the value obtained, the illumination means, when illuminating the reference member, the leading end of the document placed on the document table Since the received illumination light amount is configured to be within a predetermined ratio range of the maximum illumination light amount at a predetermined portion of the reference member, the light reflected by the diffused light generated when illuminating the reference member is generated. It is possible to avoid the improper shading correction to be.

The predetermined ratio range can be set to a range of 50% or less and 10% or more of the maximum illumination light amount at a predetermined portion of the reference member.

According to the shading correction method of the present invention, the illuminating means sets the amount of illumination received by the leading end of the document placed on the document table within a predetermined ratio range of the maximum illumination light at a predetermined portion of the reference member. Illuminating the
The method includes a step of reading a predetermined portion of the reference member illuminated by the illumination means by the reading means, and a step of performing shading correction of an image on a document read by the image reading means based on a value obtained by reading the reference member. In addition, it is possible to avoid improper shading correction caused by diffuse reflection light generated when illuminating the reference member.

The predetermined ratio range can be set to a range of 50% or less and 10% or more of the maximum illumination light amount at a predetermined portion of the reference member.

According to the image reading apparatus of the present invention, the illuminating means for illuminating the original placed on the original table, the reading means for reading the image on the original illuminated by the illuminating means, and the original table The reading means based on a value obtained by reading a predetermined portion of the reference member illuminated by the illumination means by the reading means, and a shading correction reference member disposed at a position near the leading end of the original placed thereon. A shading correction coefficient calculating means for calculating a shading correction coefficient used for shading correction of the read image, wherein the shading correction coefficient calculating means is configured to illuminate the reference member by the illuminating means. The shading correction coefficient is corrected according to the increase in the amount of illumination light at a predetermined part of the reference member that receives diffuse reflected light from the part Since that can avoid improper shading correction due to diffuse reflected light generated when illuminating the reference member.

If the shading correction coefficient calculated based on the value obtained by reading the predetermined portion of the reference member is S, and the increase in the amount of illumination light at the predetermined portion of the reference member is α, the corrected shading correction The coefficient S ′ is calculated based on the following equation: S ′ = S / (1 + α). Thus, the corrected shading correction coefficient can be easily obtained.

Further, the reference member may have a plurality of predetermined portions, and each of the predetermined portions may be a portion arranged along the sub-scanning direction of the reading means.

According to the shading correction method of the present invention, the step of illuminating the reference member by the illuminating means and reading the predetermined portion of the reference member by the reading means and the step of reading the predetermined portion of the reference member based on the value obtained by reading the predetermined portion of the reference member. A step of calculating a shading correction coefficient, and a step of correcting the shading correction coefficient according to an increase in the amount of illumination light at a predetermined portion of the reference member that receives diffuse reflected light from the leading end of the document placed on the document table, Performing shading correction of an image on a document read by the reading unit based on the corrected shading correction coefficient, thereby avoiding improper shading correction caused by diffuse reflection light generated when illuminating the reference member. be able to.

When the shading correction coefficient calculated based on the value obtained by reading the predetermined portion of the reference member is S, and the increase in the amount of illumination light at the predetermined portion of the reference member is α, the corrected shading correction is performed. The coefficient S ′ is calculated based on an arithmetic expression of S ′ = S / (1 + α). Thus, the corrected shading correction coefficient can be easily obtained.

Further, the number of the predetermined portions of the reference member may be plural, and each of the predetermined portions may be a portion arranged along the sub-scanning direction of the reading means.

[Brief description of the drawings]

FIG. 1 is a diagram schematically illustrating a configuration of a main part of an image reading apparatus according to a first embodiment of the invention.

FIG. 2 is a diagram illustrating an illuminance distribution on a document surface by a light source of the image reading apparatus of FIG. 1;

FIG. 3 is a diagram illustrating a calculation procedure of a shading correction coefficient according to a second embodiment of the image reading apparatus of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Reference white board 2 Reading part 4 Original 5 Light source 6 Reflecting member 9 Platen glass

 ────────────────────────────────────────────────── ─── Continued on the front page F term (reference) 5B047 AA01 BA02 BB02 BC05 BC09 BC12 CA19 DA04 5C072 AA01 BA08 BA16 CA14 DA12 EA05 FB12 LA02 LA15 UA02 XA01 5C077 LL19 MM03 MM21 PP06 SS01 SS03 TT06

Claims (10)

[Claims] An illumination unit configured to illuminate an original placed on a platen; a reading unit configured to read an image on the original illuminated by the illumination unit; The shading correction reference member disposed at a position near the leading end of the document, and a predetermined portion of the reference member illuminated by the illuminating unit, which is read by the reading unit based on a value obtained by reading by the reading unit. Shading correction means for performing shading correction of the image on the document, the illumination means,
When illuminating the reference member, the illumination amount received by the leading end of the document placed on the document table is configured to fall within a predetermined ratio range of the maximum illumination light amount at a predetermined portion of the reference member. An image reading apparatus characterized by the above-mentioned. 2. The image reading apparatus according to claim 1, wherein the predetermined ratio range is a range of 50% or less and 10% or more of a maximum illumination light amount at a predetermined portion of the reference member. 3. An illumination unit for illuminating an original placed on a platen, a reading unit for reading an image on the original illuminated by the illumination unit, and a reading unit placed on the platen. A shading correction method for an image reading apparatus comprising: a shading correction reference member disposed at a position near the leading end of the document; wherein the illuminating means controls the amount of illumination received by the leading end of the document placed on the platen. Illuminating the reference member within a predetermined ratio range of the maximum illumination light amount at a predetermined portion of the reference member, reading the predetermined portion of the reference member illuminated by the illumination unit with the reading unit, And performing a shading correction of an image on the document read by the image reading means based on a value obtained by reading the document. The shading correction method used. 4. The shading correction method according to claim 3, wherein the predetermined ratio range is a range of 50% or less and 10% or more of a maximum illumination light amount at a predetermined portion of the reference member. 5. An illumination unit for illuminating an original placed on a platen, a reading unit for reading an image on the original illuminated by the illumination unit, and a reading unit placed on the platen. The shading correction reference member disposed at a position near the leading end of the document, and a predetermined portion of the reference member illuminated by the illuminating unit, which is read by the reading unit based on a value obtained by reading by the reading unit. Shading correction coefficient calculating means for calculating a shading correction coefficient used for shading correction of the image, wherein the shading correction coefficient calculating means is placed on the platen when the illumination means illuminates the reference member. The shading is performed according to an increase in the amount of illumination light at a predetermined portion of the reference member that receives diffuse reflected light from the leading edge of the document. An image reading apparatus for correcting a scanning correction coefficient. 6. A method according to claim 1, wherein a shading correction coefficient calculated based on a value obtained by reading a predetermined portion of said reference member is S, and an increase in illumination light amount at a predetermined portion of said reference member is α. The calculated shading correction coefficient S ′ is calculated based on an arithmetic expression of S ′ = S / (1 + α).
The image reading device according to claim 1. 7. The apparatus according to claim 5, wherein the number of predetermined portions of the reference member is plural, and each of the predetermined portions is a portion arranged along a sub-scanning direction of the reading unit. Image reading device. 8. Illumination means for illuminating a document placed on a document table, reading means for reading an image on the document illuminated by the lighting means, and A shading correction method for an image reading apparatus, comprising: a shading correction reference member disposed at a position near the leading end of the document; wherein the illumination unit illuminates the reference member, and the reading unit illuminates a predetermined portion of the reference member. A step of reading, a step of calculating a shading correction coefficient based on a value obtained by reading a predetermined portion of the reference member, and a step of receiving diffuse reflection light from a front end of a document placed on the platen. Correcting the shading correction coefficient according to an increase in the amount of illumination light at a predetermined portion of the member; and the corrected shading correction coefficient And performing a shading correction of the image on the document read by the reading unit based on the shading correction method. 9. The correction method according to claim 1, wherein a shading correction coefficient calculated based on a value obtained by reading a predetermined portion of the reference member is S, and an increase in the amount of illumination light at a predetermined portion of the reference member is α. 9. The shading correction coefficient S 'calculated according to the following equation: S' = S / (1 + α).
The shading correction method described. 10. The apparatus according to claim 8, wherein a plurality of predetermined portions of the reference member are provided, and each of the predetermined portions is a portion arranged along a sub-scanning direction of the reading unit.
The shading correction method described.