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Description  |
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FIELD OF THE INVENTION
The present invention relates to an image inputting and outputting device
which carries out reading (image inputting) and displaying of images, and
especially to an image information enlarging reading device which is
effective for persons with low eyesight to read image information.
BACKGROUND OF THE INVENTION
Conventionally, as image information enlarging reading devices, there are
systems using video cameras and television monitors. With one of such
devices, reading is carried out by placing an object to be read, such as a
book or a magazine under a fixed video camera and moving the object,
watching an enlarged image displayed in a television monitor. As a
portable image information enlarging reading device, as shown in Japanese
unexamined patent publication Hei 5-41866, a system using a video camera
and a liquid crystal display is proposed. With this device, a liquid
crystal display and a video camera of a small size are received in the
corresponding receiving portions of a case, which makes it portable. In
use, the video camera is taken out, and the reading of images is carried
out by placing the camera on an object to be read and moving it by hand.
However, with the former one of the above described image information
enlarging reading devices, as reading is carried out by moving an object
to be read and watching an enlarged image displayed in a television
monitor, it is difficult to guess which portion of the object is being
read and to read image information of different lines. Further, as the
whole system is bulky, it cannot be carried freely.
With the latter one of the above described image information enlarging and
reading devices, as reading is carried out by moving a video camera with
respect to an object to be read and watching an enlarged image displayed
in a liquid crystal display, it is also difficult to guess which portion
of the object is being read and to read image information of different
lines. Further, when it is carried, the liquid crystal display and video
camera must be stored in a case, it is not easy to carry them.
The way wherein an image information enlarging reading device is used, the
type and size of it and the environment wherein it is used are diverse,
and the development of a device which is easy to use has been desired. As
a person with poor eyesight tends to look at a displayed character or
image, making himself close to a screen and it is preferable for him to
use an image information enlarging reading device by himself so that he
can use it freely, the one which is excellent in respect of portability
has been desired. With the above described conventional image information
enlarging reading devices, as an image inputting portion and enlarging
displaying portion are separated, it is necessary to look at the object to
be read and the enlarging displaying portion separately, which makes it
difficult to use the devices.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide an image inputting and
outputting device free of the defects found in the conventional arts.
It is another object of the present invention to provide an image inputting
and outputting device such as an image information enlarging reading
device capable of being used easily and which is excellent in portability.
Additional objects and advantages of the invention will be set forth in
part in the description which follows and in part will be apparent from
the description, or may be learned by practice of the invention.
In one aspect of the present invention described in claim 1 to solve the
above described conventional problems, the image inputting and outputting
device comprises image inputting means and image displaying means for
displaying the whole or a part of image information inputted by this image
inputting means, and a reading portion of the image inputting means and a
displaying portion of the image displaying means are provided, being
combined so that they are the front side and the rear side respectively,
and the displaying portion is positioned over the range being read, that
is, the range of image inputting.
In another aspect of the present invention described in claim 2, the image
inputting and outputting device described in claim 1 carries out enlarging
displaying (displaying by enlargement) by the difference between the pixel
density of the reading portion of the image inputting means and that of
the displaying portion of the image displaying means.
In another aspect of the present invention described in claim 3, the image
inputting and outputting device described in claim 1 carries out enlarging
displaying by image processing, such as analog-digital conversion, of
image signals obtained by the image inputting means.
In another aspect of the present invention described in claim 4, in the
image inputting and outputting device described in claim 1, the image
inputting means is a two-dimensional image sensor and the image displaying
means is a flat panel display.
In another aspect of the present invention described in claim 5, displaying
of information, which is carried out by the flat panel display described
in claim 4, read by the two-dimensional image sensor, is carried out
immediately after the reading of the two-dimensional image sensor.
According to the image inputting and outputting device described in claim
1, as the displaying portion is positioned over the range being read, that
is, the range of image inputting, there is no difference between the place
where the image is inputted and that where it is displayed, and one can
look at the enlarged screen, looking at an object to be read, which makes
it easy to confirm which portion of the image is now being read.
According to the image inputting and outputting device described in claim
2, enlarging displaying is carried out by the difference between the pixel
density of the reading portion and that of the displaying portion, and an
enlarging function can be obtained with a simple structure.
According to the image inputting and outputting device described in claim
3, as enlarging displaying is carried out in the image displaying means by
processing image signals obtained by the image inputting means, a desired
portion is enlarged by a desired magnification.
According to the image inputting and outputting device described in claim
4, enlarging displaying of an object to be read over a large range is
possible by using a two-dimensional image sensor and a flat panel display.
According to the image inputting and outputting device described in claim
5, as displaying of information, which is carried out by the flat panel
display described in claim 4, read by the two-dimensional image sensor is
carried out immediately after the reading of the two-dimensional image
sensor, it is possible to confirm which portion is being read, confirming
the reading status simultaneously when reading a document or the like.
BRIEF DESCRIPTION OF THE DRAWINGS
The manner by which the above objects and the other objects, features and
advantages of the preset invention are attained will be fully evident from
the following detailed description when it is considered in light of the
accompanying drawings, wherein:
FIG. 1 shows an image information enlarging reading device, which is seen
from above, according to a first embodiment of the present invention.
FIG. 2 shows the bottom part of the image information enlarging reading
device shown in FIG. 1.
FIG. 3 is a perspective view of the image information enlarging reading
device shown in FIG. 1.
FIG. 4 is a cross-sectional view of the image information enlarging reading
device shown in FIG. 1.
FIG. 5 is a block diagram showing the internal structure of the image
information enlarging reading device shown in FIG. 1.
FIG. 6 is a timing chart concerning reading and displaying carried out by
the image information enlarging reading device shown in FIG. 1.
FIG. 7 is a cross-sectional view showing a modified embodiment of the image
information enlarging reading device.
FIG. 8 is a perspective view showing another modified embodiment of the
image information enlarging reading device.
FIG. 9 shows an image information enlarging reading device, which is seen
from above, according to a second embodiment of the present invention.
FIG. 10 shows the bottom part of the image information enlarging reading
device shown in FIG. 9.
FIG. 11 is a perspective view of the image information enlarging reading
device shown in FIG. 9.
FIG. 12 is a block diagram showing the internal structure of the image
information enlarging reading device shown in FIG. 9.
FIG. 13 shows an image information enlarging reading device, which is seen
from above, according to a third embodiment of the present invention.
FIG. 14 shows the bottom part of the image information enlarging reading
device shown in FIG. 13.
FIG. 15 is a perspective view of the image information enlarging reading
device shown in FIG. 13.
FIG. 16 is a block diagram showing the internal structure of the image
information enlarging reading device showing in FIG. 13.
FIG. 17 shows an algorithm of enlarging displaying.
FIG. 18 is a perspective view of another modified embodiment of the image
information enlarging reading device.
FIG. 19 shows a perspective view of another modified embodiment of the
image information enlarging reading device.
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1
An image information enlarging reading device of a first embodiment
according to the present invention is now described, referring to FIGS. 1
to 6.
Two-dimensional contact type image sensor 2 is provided to the bottom part
of the main body 1 of the image information enlarging reading device, as
image inputting means, and liquid crystal display 3 capable of flat panel
displaying is provided to the front surface of the main body as image
displaying means. The image inputting portion of two-dimensional contact
type image sensor 2 and the image displaying portion of liquid crystal
display 3 are provided, as shown in FIGS. 3 and 4, so that they are
parallel, and the displaying portion is positioned over the range being
read, that is, the range of image inputting, by providing the image
displaying portion immediately above the image inputting portion.
The image inputting portion of two-dimensional contact type image sensor 2
is A6-sized, the image displaying portion of liquid crystal display 3 is
A5-sized, and the number of pixels of two-dimensional contact type image
sensor 2 and that of liquid crystal display 3 is the same, that is, the
pixel density of two-dimensional contact type image sensor 2 is higher
than that of liquid crystal display 3.
Power supply switch 4 for the image information enlarging reading device,
image black/white inversion switch 5 for switching the display of
characters and background, image brightness adjusting knob 6 for adjusting
the brightness of displayed image are provided to the portion, which is
nearer to an operator compared with the liquid crystal display 3, of the
main body 1 of the image information enlarging reading device.
Inside the main body 1 of the image information enlarging reading device,
two long light sources (cathode tubes) 7 which act both as illuminations
for two-dimensional contact type image sensor 2 and backlights for liquid
crystal display 3 are provided in parallel and at the same height. At the
sides, which are opposite to the side of light-guiding plate 17, of each
light source 7, reflection members 8 comprising plastic films and on which
Ag or Al is deposited are provided, and they reflect the light from light
sources 7 and converge the light toward the center of light-guiding plate
17.
The main body is structured so that the light from light sources 7 is
conveyed uniformly to the upper surface of two-dimensional contact type
image sensor 2 and the lower surface of liquid crystal display 3, by being
provided diffusing plates 9 comprising polyester-based films to the upper
surface of two-dimensional contact type image sensor 2 and the lower
surface of liquid crystal display 3 and being provided light-guiding plate
17 comprising materials such as acrylic resin between light sources 7.
Further, processing circuit 10 for displaying, on liquid crystal display 3,
image signals read by two-dimensional contact type image sensor 2 and
power supply 11 are stored in the main body 1 of the image information
enlarging reading device.
Two-dimensional contact type image sensor 2 is structured by laminating, by
a thin film forming process, individual or common electrodes and a
photoelectric transfer film such as amorphous silicon (amorphous
silicon:a-Si) so that the photoelectric transfer film is sandwiched by the
electrodes. This two-dimensional contact type image sensor 2 is, as
described in Japanese unexamined patent publication Sho 64-62980,
structured by aligning a plurality of photoreceptive elements, for
example, the ones structured by laminating, by a thin film forming
process, individual or common electrodes and a photoelectric transfer film
such as amorphous silicon (amorphous silicon:a-Si) so that the
photoelectric transfer film is sandwiched by the electrodes,
two-dimensionally on a light-transmitting substrates and providing
apertures between each photoreceptive element. The image information
enlarging reading device is placed on a side, which is to be read, of a
document, the document is positioned under the image sensor, the light
from the light sources is transmitted through the apertures of the
photoreceptive elements and then it is reflected on the surface of the
document, the reflected light is received by the photoreceptive elements
facing the document and an image of the document is read by photoelectric
transfer, by which image information of a range of image inputting can be
read without mechanical scanning means.
FIG. 5 is a block diagram showing the internal structure of the above
described image information enlarging reading device.
Image inputting portion 21 of two-dimensional contact type image sensor 2
is driven by sensor controlling circuit 22, and the image read by image
inputting portion 21 is once stored in memory 23 and it is displayed on
image displaying portion 25 of liquid crystal display 3 by display
controlling portion 24 of a microcomputer.
With the above described image information enlarging reading device, as the
image inputting portion of two-dimensional contact type image sensor 2 is
A6-sized, the image displaying portion of liquid crystal display 3 is
A5-sized and the number of pixels of each portion is the same, when the
whole image read by the image inputting portion is displayed as it is, the
document image can be displayed on the image displaying portion, being
enlarged 1.41 times as big as the original one.
Therefore, an image processing portion for enlargement is not necessary
between memory 23 and display controlling portion 24.
The image information read by two-dimensional contact type image sensor 2
is first stored in memory 23 and then it is displayed on liquid crystal
display 3. As for the displaying timing, as shown in FIG. 6, an image of
the range of previous reading (image inputting) is displayed on liquid
crystal display 3 while an image of the present range is being read by
image sensor 2. As the reading time of image sensor 2 with respect to a
range of image inputting is 30 ms, a time lag of 30 ms is caused between
reading and displaying, but since the reading time with respect to a range
of image inputting is short, the time lag is not realized when using the
device, which makes real time displaying possible. Further, if the same
image is repeatedly read by image sensor 2 (if the device is placed on the
same page of the document), as the information to be read is the same, the
same image is displayed repeatedly.
Therefore, when reading a document, the operator can confirm the portion,
which is being read, of the document, confirming the reading status
simultaneously, by which reading errors can be prevented.
Although, with the above described device, light sources 7 act both as
illuminations for two-dimensional contact type image sensor 2 and as
backlights for liquid crystal display 3, light source for illuminating
documents 7a and backlight for the liquid crystal display 7b can be
provided separately as shown in FIG. 7. In FIG. 7, the same portions as
shown in FIG. 4 are identified by the same reference indications.
Although, with an image information enlarging reading device according to
the present invention, the image inputting portion of image sensor 2 and
the image displaying portion of liquid crystal display 3 are provided in
parallel, they can be provided so that the image displaying portion of
liquid crystal display 3 is prominent and inclined with respect to the
image inputting portion of image sensor 2, that is, a convex portion 12
whose height from the main body increases in accordance with the distance
from the operator is provided on the main body and the image displaying
portion of liquid crystal display 3 is provided to the surface of convex
portion 12. In FIG. 8, the same portions as FIG. 3 are identified by the
same reference indications.
With the above described embodiment, (including modified embodiments), as
image sensor 2 and liquid crystal display 3 are combined, the size of the
device can be reduced, which makes the device excellent in portability.
Further, as the image displaying portion is positioned over a range of
image inputting of image sensor 2, the operator can be aware of which
image of the document is being inputted without taking his eyes off of the
display. Yet further, as which portion of the original document the
portion being enlarged corresponds to can be confirmed easily, the
efficiency of using the device is improved, and it is possible to carry
out enlarging displaying easily without moving the object to be read.
As both image sensor 2 and liquid crystal display 3 are document-sized
though their sizes are different, high speed image reading is possible
without moving the sensor by a driving system.
Embodiment 2
FIGS. 9 to 12 inclusive show a second embodiment of the image information
enlarging reading device, and the same portions as shown in the above
described first embodiment are identified by the same reference
indications.
With this image information enlarging reading device, as the one according
to the first embodiment, two-dimensional contact type image sensor 2 is
provided to the bottom part of the main body as image inputting means, and
liquid crystal display 3 capable of flat panel displaying is provided to
the front surface of the main body as image displaying means. The device
is structured so that the image displaying portion of the liquid crystal
display is positioned immediately above the range of the image inputting
portion of image sensor 2.
Both image sensor 2 and the image displaying portion of liquid crystal
display 3 are A4-sized, the number of pixels of image sensor 2 and that of
liquid crystal display 3 are the same, the whole image read by the image
inputting portion of image sensor 2 is displayed on the image displaying
portion of liquid crystal display 3 with a magnification equal to the
original document or with a local enlargement in the whole image read by
the image inputting portion with a magnification equal to the original
document.
In the portion, which is nearer to the operator compared with the liquid
crystal display, of the main body, enlargement magnification adjusting
knob 13 for predetermining the magnification of enlarging displaying is
provided, adjacent to image brightness adjusting knob 6.
FIG. 12 is a block diagram showing the internal structure of the above
described image information enlarging reading device. Image inputting
portion 21 of two-dimensional contact type image sensor 2 is driven by
sensor controlling circuit 22, the image read by the image inputting
portion is once stored in memory 23 and it is displayed, being enlarged on
image displaying portion 25 of liquid crystal display 3 by display
controlling portion 24 though (by way of) image processing portion 26
which carries out operations such as predetermining magnification. Image
processing portion 26 and display controlling portion 24 are
microprocessors.
The image information read by image sensor 2 is first stored in memory 23,
enlarged by image processing portion 26 is accordance with the
magnification predetermined by enlargement magnification adjusting knob
13, and it is displayed on the image displaying portion of liquid crystal
display 3 by display controlling portion 24. As for the displaying of the
read image, it is displayed, being enlarged, in order from the upper left
end on the image displaying portion.
Embodiment 3
FIGS. 13 to 19 inclusive show a third embodiment of the image information
enlarging reading device according to the present invention, and the same
portions as shown in the above described first and second embodiments are
identified by the same reference indications.
With this device, as each device of the above described embodiments,
two-dimensional contact type image sensor 2 is provided to the bottom part
of the main body as image inputting means, and liquid crystal display 3
capable of flat panel displaying is provided to the front surface of the
main body as image displaying means. The image inputting portion of image
sensor 2 and the image displaying portion of liquid crystal display 3 are
provided so that they are parallel, and the displaying portion is
positioned over the range of image inputting of image sensor 2, by
positioning the image displaying portion immediately above the image
inputting portion .
Both of the image inputting portion image sensor 2 and the image displaying
portion of liquid crystal display 3 are A4-sized, and the number of pixels
of image sensor 2 and that of liquid crystal display 3 are the same. The
whole image read by the image inputting portion of image sensor 2 is
displayed on the image displaying portion of liquid crystal display 3
simultaneously.
In the image displaying portion, as shown in FIG. 13, a square enlarging
displaying portion 14 of a predetermined area can be displayed in the
whole image displayed with the same magnification as the original
document.
Track ball 15 capable of rotating in desired directions is provided in the
lower right end of the front surface, that is, the side of liquid crystal
display 3 of the main body 1. The device is structured so that enlarging
displaying portion 14 in the whole image displayed on liquid crystal
display 3 with the same magnification as the original document is moved by
rotating this track ball 15. Enlarging displaying portion 14 is to display
the document image which is immediately below it, enlarging the image.
Further, enlargement magnification adjusting knob 13 for predetermining
the magnification of enlarging displaying of the above described enlarging
displaying portion 14 is provided, being adjacent to image brightness
adjusting knob 6.
FIG. 16 is a block diagram showing the internal structure of the above
described image information enlarging reading device. Image inputting
portion 21 of image sensor 2 is driven by sensor controlling circuit 22,
and the image read by image inputting portion 21 is first stored in memory
23. Image processing portion 26 enlarges the image stored in memory 23,
based on the information, which is sent from enlarged portion specifying
portion 27 to which positional signals are sent from track ball 15,
concerning the portions to be enlarged and the information indicated by
enlargement magnification adjusting knob 13. An enlarged image is
displayed on image displaying portion 25 of liquid crystal display 3 by
display controlling portion 24.
Image processing portion 26 and displaying controlling portion 24 are
microcomputers.
The image information read by image sensor 2 is first stored in memory 23
and then a specified portion of it is enlarged in image processing portion
26, based on the indication, which is made in accordance with positional
signals sent from track ball 15, of enlarged portion specifying portion 27
and the magnification specified by enlargement magnification adjusting
knob 13, and the image information is displayed on the image displaying
portion of liquid crystal display 3 by display controlling portion 24.
Enlarging displaying portion 14 displays the document image which is
positioned immediately below it, enlarging the image. Enlarging displaying
can be realized by carrying out processing in accordance with the
following algorithm.
For example, as shown in FIG. 17, when a document image is enlarged with a
magnification of 4, an enlarged image is obtained by regarding pixels a,
b, c and d, each of which are provided adjacent to a pixel of the original
images A, B, C or D, as A, B, C and D respectively.
In image processing portion 26, enlarging processing is carried out in
accordance with an algorithm corresponding to each magnification.
According to this embodiment, as the whole image displayed with a
magnification equal to the original document and an enlarged portion are
displayed simultaneously and the portion being enlarged is known by the
position of enlarging displaying portion 14, confirmation of the portion
being enlarged in the whole image displayed can be carried out easily.
With an image information enlarging reading device according to the third
embodiment, track ball 15 is used for enlarged portion specifying means,
and enlarging displaying portion 14 can be moved by means of mouse 16 as
shown in FIG. 18. The portions to be enlarged can also be specified by
tracing liquid crystal display 3 over a touch panel provided on liquid
crystal display 3 by something such as a finger.
In each of the above described first, second and third embodiments, the
sizes of the image inputting portions of image sensor 2 are A4 to A6, and
it is also possible to make the lateral length of image inputting portion
A4, A5 or A6-sized as shown in FIG. 19 and to make the longitudinal length
of it short. In this case, the size of the image displaying portion of
display 3 is also reduced in accordance with the size of image sensor 2.
In the figure, the same portions as shown in FIG. 15 are identified by the
same reference indications.
With such an image information enlarging reading device, the range of image
inputting for a single operation is some lines; the whole document 30 can
be covered in respect of width (if The document to be read is A4, A5 or
A6-sized, the device is to be moved not for each line but for some lines,
which allows the device to be smaller and excellent in portability.
Further, although liquid crystal displays which have an advantage in
respect of low power consumption and coloring images are used as image
displaying means in each of the above described embodiments, ELD
(Electroluminescence Display), PDP (Plasma Display Panel) or the like can
also be used.
With the present invention, as an image displaying portion is positioned
over the range of image inputting, there is no shift between the place
where an image is inputted and where the image is displayed, and a user
can look at an enlarging displaying screen, watching the object to be
read. Therefore, the operator need not look at the object and enlarging
displaying screen separately, he can confirm the enlarged portion in
inputted image easily, and the efficiency of using the device is improved.
Further, it can be smaller, thinner and lighter, which makes it excellent
in portability.
Further, by comprising a two-dimensional image sensor as the image
inputting means and a flat panel display as the image displaying portion,
image reading is carried out at high speed without moving the sensor by a
driving system.
Yet further, by reading and displaying an image information positioned
immediately below the image information inputting and outputting device
simultaneously, image reading can be carried out, confirming the portion
being read simultaneously.
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