Optical: systems and elements – Lens – With viewed object support
Reexamination Certificate
2000-03-17
2002-05-28
Ben, Loha (Department: 2873)
Optical: systems and elements
Lens
With viewed object support
C359S668000, C359S776000, C359S785000, C250S208100, C250S227110, C358S475000, C362S297000
Reexamination Certificate
active
06396648
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an image reader having an optical system including an optical lens.
2. Description of the Related Art
An image reader is used when a printed image is read. The image reader is, for example, a scanner. The image reader is provided with a light source, an optical system including an optical lens and a reading device. A read image is formed on the reading device through the optical system. The reading device converts the read image into an electric signal.
FIG. 1
shows a main part of an image reader of prior art. In
FIG. 1
, a symbol
1
denotes a light source.
2
denotes a reading device.
3
denotes an optical lens. And, S denotes a reading target (a printed image).
The light source
1
is arranged on a reading side of the reading target S. The light source
1
is arranged on a rear side of the reading target S. The light source
1
emits a light onto the reading target S. The reading device
2
is arranged on a front side of the reading target S. A printed image is formed on a surface of the reading target S. The light from the light source
1
generates a shadow of the printed image. The reading device
2
scans the surface of the reading target S. The reading device
2
reads the image formed on the surface of the reading target S based on the shadow. The optical lens
3
is mounted between the reading target S and the reading device
2
. The optical lens
3
forms the image on an image forming surface
2
a
of the reading device
2
. The reading device has a resolution characteristic of, for example 600 dpi. A focal length L
1
of the optical lens
3
is set for a normal width W
1
. The focal length L
1
is, for example 300 mm. A read image inputted to the reading device
2
is converted into an electric signal. The electric signal is transmitted to an image processor (not shown). The image processor re-constitutes an image, in which distortion is small, in accordance with the electric signal.
Configuration in which a wide-angle lens is used as the optical lens is well known in order to expand a reading width.
FIG. 2
shows a main part of an image reader of prior art in which the wide-angle lens is used. As shown in
FIG. 2
, an optical system having a wide-angle lens
3
′ to expand the reading width from the normal width W
1
to a wide width W
2
. The wide width W
2
having additional width A
1
and A
2
. A focal length L
2
of the wide-angle lens
3
′ is the same as the focal length L
1
. The wide-angle lens
3
′ forms an image, in which the distortion is small, for the normal width W
1
. The wide-angle lens
3
′ forms an image in which the distortion is large, for the additional width A
1
and A
2
. In the read image for the additional width A
1
and A
2
, a part thereof is dropped. The drop of the read image is brought about because of the distortion. In the illustrated image reader, a later stage process is carried out for complementing the dropped image. The later stage process implies a process for complementing the dropped image with a pseudo information.
The reading devices
2
of the image reader shown in FIG.
1
and
FIG. 2
are provided with a color CCD an imaging device.
FIG. 3
shows a prior art in which a color CCD is used as an imaging device. In the color CCD shown in
FIG. 3
, three colors of a R (Red) line, a G (Green) line and a B (Blue) line are arranged in a sub-scanning direction. An interval N (N line interval) is set for the arrangement. This arrangement generates an action for suppressing a distortion rate of the optical lens. Line memories corresponding to at least 2×N lines are installed in the image reader in order to mix the colors.
In the reading device
2
shown in
FIG. 1
, if a focal length of the optical system is set to be shorter than a predetermined length (L
1
,L
2
), the image forming performance of the reading device
2
is reduced. Miniaturization of the image reader depends on the focal length. In the image reader shown in
FIG. 1
, it is difficult to simultaneously reserve the image forming performance and miniaturize the image reader (shorten the focal length).
The type of the image reader is not limited to the type in which a small type optical system is used. A contact type image sensor is used in another type image reader. Another type image reader is slower in a reading speed than the image reader using the small type optical system. Another type image reader can not establish a deep focal length. Another type image reader has an expensive price. In another type image reader having such conditions, its usage is limited.
A conventional technology concerning a field of the invention has been disclosed in Japanese Patent Laid-open JP-A S64-86664, JP-A H5-176323, JP-A H5-260248, JP-A H8-9109 and JP-A H9-261523.
Market of an image reader requests an image reader which can read an image at a high speed and has a cheap price. The image reader which can read the image at the high speed and has the cheap price can be attained by an image reader using an optical system including a CCD camera. However, it is difficult to miniaturize this image reader.
SUMMARY OF THE INVENTION
Therefore, an object of the present invention is to provide an image reader in which an optical system is small, a reading speed is fast and its manufacturing cost is cheap.
In order to achieve an aspect of the present invention, an image reader according to the invention includes a light source, a reading device and a lens. The light source irradiates light to a reading object. The reading device reads an image on the reading object based on reflected light from the reading object. The lens focuses the image onto the reading device and has an optical characteristic of which a distortion rate is increased from the central part to the end part of the lens. The distortion rate of the end part is set to a value in which a correction of the read image is not needed.
In the above image reader, the lens is provided by a wide-angle lens or a fish-eye lens.
In the above image reader, the light source is arranged in a rear side of the reading object;
In the above image reader, the reading device is arranged in a front the of the reading object. Furthermore, the lens is arranged between the reading object and the reading device such that the image of the reading device is focused on the reading device.
In the above image reader , the light source and the reading device are arranged in a front side of the reading object. Furthermore, the lens is arranged between the reading object and the reading device such that the image of the reading device is focused on the reading device.
In the above image reader, wherein a resolution for the end part is set to 200 dpi and more. Furthermore, a resolution for the central part is set to 300 dpi and more.
In the above image reader, the reading device includes a line memory which stores an image data of the read image.
In the above image reader, the reading device comprises a CCD which can generate, a signal based on the read image.
In the above image reader, a mirror arranged on a light path between the reading object and the lens and reflecting the reflected light or a transmitted light from the reading object to the lens.
In the above image reader, focus length of the lens is set such that a distance between the reading object and the reading device is set to from 30 mm to 250 mm.
In the above image reader, resolution of the reading device is set to 200 dpi and more.
In order to achieve an aspect of the present invention, a method of image reading includes an irradiation and a focusing. By the irradiation, a light from a light source is irradiated to the reading object. By the focusing, an image on the reading object to the reading device a lens of which a distortion rate increases from the center part to the end part of the lens.
In the above method, the lens is provided by a wide-angle lens or a fish-eye lens.
In the above method, the light source is arranged in a rear side of the reading object.
In the above meth
Kubo Shinya
Yamamoto Tetsuichiro
Ben Loha
NEC Corporation
Whitham Curtis & Christofferson, PC
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