JPH0651295A - Image reading device - Google Patents

Abstract

PURPOSE:To provide an image reading device capable of correctly recognizing the information such as the document mount position without reducing the reading sensitivity, provided with a display mechanism having a high operating speed, and preventing the missing image reading. CONSTITUTION:The display mechanism of a transmission type liquid crystal display panel sandwiched between a display layer 3 made of a liquid crystal/ polymer composite material by a lower transparent electrode layer 2 and an upper transparent electrode layer 4 is provided on a document mount base 11, the lower transparent electrode layer 2 and the upper transparent electrode layer 4 are formed into multiple strip-like split electrodes, and the gap (d) between adjacent split electrodes is made smaller than the resolution distance at the position of the display layer 3 in an image reading device. The display with an excellent recognition property can be performed, the reading sensitivity is not reduced, the complex information can be displayed, missing image reading is prevented, and correct reading can be performed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a copying machine, a scanner,
The present invention relates to an image reading apparatus used in an image reading unit of a facsimile or the like, and in particular, a document placing table that has been impossible in the past by providing a display mechanism using a liquid crystal / polymer composite material on a part or all of the document placing table. Enables intelligent display in
The present invention relates to an image reading device that significantly reduces the burden on the user.

[0002]

2. Description of the Related Art A conventional image reading apparatus such as a copying machine, a scanner and a facsimile has an original table 11 made of a transparent material such as glass as shown in the schematic view of the image reading apparatus in FIG. The original 10 is placed on the original placing table 11, the original 10 is irradiated with light, and the light reflected from the original 10 is used to read the image of the original.

In the above-described conventional image reading apparatus, the position and orientation of the original placed on the original placing table are limited. However, since this is largely different depending on the model of the image reading apparatus, it is familiar to the model. There is a problem that a reading error occurs due to a placement error of a document when used by a person who is not present.

In particular, in an image reading apparatus in a copying machine, the reading range changes according to the copy magnification or the paper used, and the original is read when performing high-performance reading such as an automatic double-sided copying function and a right and left binding function. Was difficult to put. Further, in the scanner, if the originals are erroneously placed up and down on the original placing table, the originals will be read in reverse, which makes it difficult to place the originals on the original placing table.

To solve the above problems, some improvement techniques have been proposed. As a first example, Japanese Patent Publication Sho 5
There is a platen device for a copying machine described in Japanese Patent Laid-Open No. 5-6227. The platen device of this copying machine automatically places the original on the platen by utilizing the property that liquid crystal is interposed between the electrodes and the liquid crystal in this part becomes opaque when a voltage is applied between the electrodes. Can be displayed in.

As a second example, Japanese Patent Publication No. 59-30.
There is a copy area display device described in Japanese Patent No. 254. In this copy area display device, light emitting diodes (LEDs) are arranged in the peripheral portion of the document placing table, and the light emitting diodes (LEDs) are arranged in correspondence with the placing position.
The ED is turned on to display the copyable area on the document table according to the copy paper size and the copy magnification to prevent the use of unnecessarily large copy paper or the use of too small copy paper. Is.

As a third example, Japanese Patent Laid-Open No. 60-14
There is a sheet size display device of an image recording device described in Japanese Patent No. 229. The sheet size display device of this image recording device is an image recording device that exposes an original by moving the exposure lamp along the lower side of the platen glass. The size indicator sheet is arranged so as to be taken out and rolled into a predetermined storage part by the movement of the exposure lamp, and a size indicator sheet having a plurality of marks of a predetermined sheet size is marked or marked on the upper surface, and the size indicator sheet is further provided. A plurality of sheet size marks are provided with a light emitter to enable selective lighting. As a result, the copy size and the document size can be easily read, and the document can be aligned with the reference side on all four sides.

As a fourth example, Japanese Patent Application Laid-Open No. 58-25 / 1983
There is a document mask device described in Japanese Patent No. 664. This original mask device is provided with a liquid crystal panel that is divided into a large number of layers on a transparent original table that transmits light such as glass, and a variable voltage is selectively applied to the plurality of liquid crystal panels to partially A transparent area is formed in the area to shield the area other than the original reading area from light. This makes it possible to apply an intermediate voltage to the liquid crystal panel to be masked to control the transmitted light and obtain an arbitrary blurred state in the masked portion of the original.

As a fifth example, Japanese Patent Laid-Open No. 63-27
There is a copying machine described in Japanese Patent No. 1332. This copying machine is equipped with a liquid crystal display panel that is transparent in the non-display state on the glass original placing table and displays information related to the operation when required, and displays information related to the operation at the time of starting a copying operation or during a trouble during copying. It is displayed on a panel and is copied as a transmissive type after a document is placed.

On the other hand, as a transmissive display panel, there is a liquid crystal dimming / display device described in JP-A-3-219211. This liquid crystal light control / display device is composed of two conductive substrates, at least one of which is transparent, and a light control layer containing a liquid crystal material and a polymer substance, sandwiched between the two conductive substrates. It is possible to reversibly switch between a transparent state and an opaque state by an electric field. As a transmissive display panel, Japanese Patent Publication No. 3-52843
A transmissive display panel using a liquid crystal / polymer composite material described in Japanese Patent Publication No. 63-501512 and Japanese Patent Publication No. 63-501512 is known.

[0011]

However, in the platen device of the copying machine of the first conventional example described above, since the light transmittance of the liquid crystal is as small as 50%, the essential reading sensitivity is greatly lowered. However, there is a problem that the practicality is low.

Further, although the copying area display device of the above-mentioned second example of the prior art is capable of displaying a rough placement position, it is possible to arrange an original document for high-performance reading such as an automatic double-sided copying function. Since the direction cannot be specified, there is a problem that it is difficult to recognize the mounting position.

Further, in the sheet size display device of the image recording apparatus of the above-mentioned third conventional example, the size display sheet whose mounting position is displayed on the lower surface of the document mounting table is mechanically unwound to set the mounting position. Since it is displayed, there is a problem that the operation is slow due to the mechanical operation.

Further, the original mask device of the fourth conventional example and the copying machine of the fifth conventional example use the transmissive liquid crystal display panel sandwiching the conventional liquid crystal material. There is a problem that the transmittance is low and the practicality is low.

Then, in the transmissive display panel using the liquid crystal / polymer composite material in the liquid crystal dimming / display device described in JP-A-3-219211, when an electric field is applied, when an electric field is applied to the conventional liquid crystal display panel. Although a higher transmittance can be obtained, if a transmission type display panel using this liquid crystal / polymer composite material is used like the display panel of the copying machine of the fifth conventional example, the liquid crystal / polymer is used. Since the electric field is not always applied to the gap between the divided electrodes of the transmissive display panel using the composite material, light is scattered and becomes a turbid area, which is an obstacle to image reading and there is a problem that reading omission occurs. It was In addition, Japanese Patent Publication No. 3-52843
A similar problem occurs in the transmission type display panel using the liquid crystal / polymer composite material described in Japanese Patent Publication No. 63-501512 and Japanese Patent Publication No. 63-501512.

The present invention has been made in view of the above-mentioned circumstances, and has a display mechanism capable of accurately recognizing information such as a document placement position without deteriorating the reading sensitivity and operating at high speed. Another object of the present invention is to provide an image reading device that prevents omission of image reading.

[0017]

According to a first aspect of the present invention for solving the above-mentioned problems of the prior art, an image is provided in which an image of a document is input through a display panel provided on the document table. In the reading device, the display panel is a transmissive liquid crystal panel in which a liquid crystal / polymer composite material is sandwiched by electrodes, and at least one of electrodes sandwiching the liquid crystal / polymer composite material is composed of a plurality of divided electrodes, The gap between the adjacent electrodes of the divided electrodes is smaller than the minimum resolution distance at the position of the display panel of the image reading device.

According to a second aspect of the present invention for solving the above-mentioned problems of the conventional example, the display is provided in an image reading apparatus in which a display panel is provided so as to be superposed on an original placing table, and an image of the original is inputted through the display panel. The panel is a transmissive liquid crystal panel in which a liquid crystal / polymer composite material is sandwiched by electrodes, and at least one of the electrodes sandwiching the liquid crystal / polymer composite material is composed of a plurality of divided electrodes, and the end portions of the divided electrodes are connected to each other. The feature is that they are overlapped via an insulating layer.

According to a third aspect of the present invention for solving the above-mentioned problems of the conventional example, the display is provided in an image reading apparatus in which a display panel is provided so as to be superposed on a document placing table, and an image of a document is input through the display panel. The panel is a transmissive liquid crystal panel in which a liquid crystal / polymer composite material is sandwiched by electrodes, and at least one of the electrodes sandwiching the liquid crystal / polymer composite material is composed of a plurality of divided electrodes, and the plurality of divided electrodes are adjacent to each other. It is characterized in that an electrode layer is provided to cover the gap between the electrodes via an insulating layer.

According to a fourth aspect of the present invention for solving the above-mentioned problems of the conventional example, in the image reading apparatus, a display panel is provided so as to be superposed on a document placing table, and an image of a document is inputted through the display panel. The panel is a transmissive liquid crystal panel in which a liquid crystal / polymer composite material is sandwiched by electrodes, and the distance t between the display panel and the surface of the document placing table is t.
Is 3 mm ≦ t ≦ 30 mm.

The inventions according to claims 5 to 8 for solving the problems of the above-mentioned conventional example are, in the image reading apparatus according to claims 1 to 4, an electrode sandwiching a liquid crystal / polymer composite material of a liquid crystal panel. A power source for applying a voltage, a switch section for turning on / off the connection between the power source and the electrode, an input means for inputting an instruction of a read document size, and an input signal corresponding to the input, and the input And a control means for outputting to the switch section a pattern signal for applying a voltage to an electrode in an area corresponding to the size of the read document in response to an input signal output from the means.

The inventions according to claims 9 to 12 for solving the problems of the above-mentioned conventional example are, in the image reading apparatus according to claims 1 to 4, an electrode sandwiching a liquid crystal / polymer composite material of a liquid crystal panel. It is characterized in that the amount of light reflected by the liquid crystal panel when no voltage is applied is equal to or larger than the reading threshold value of the white area in the image reading device.

[0023]

According to the invention described in claim 1, at least one of the electrodes is a plurality of divided electrodes, and a transmission type liquid crystal panel in which a liquid crystal / polymer composite material is sandwiched between the electrodes is provided so as to be stacked on a document table. Since the gap between the divided electrodes adjacent to each other is smaller than the minimum resolution distance at the display panel position of the image reading device, the position where the document is placed is a light transmitting portion that transmits light and a white turbidity that scatters light. The display can be displayed with excellent visibility, and the high light transmittance of the light-transmitting part of the liquid crystal / polymer composite material prevents a reduction in original reading sensitivity. Since it is smaller than the minimum resolution distance at the position of the display panel, no omission in reading occurs and accurate reading can be performed.

According to the second aspect of the present invention, at least one of the electrodes is a plurality of divided electrodes, and a transmission type liquid crystal panel sandwiching a liquid crystal / polymer composite material between the electrodes is provided on the original placing table in an overlapping manner. Since the image reading device has the end portions of the adjacent divided electrodes overlapped with each other through the insulating layer, the placement position of the document and the like can be easily recognized by the light transmitting portion that transmits light and the cloudy portion that scatters light. Excellent display and LCD
The high light transmittance of the light-transmitting part of the polymer composite material prevents the reduction of the original reading sensitivity, and the ends of adjacent divided electrodes are three-dimensionally overlapped, so no reading omission occurs. , Can make accurate readings.

According to the third aspect of the present invention, at least one of the electrodes is a plurality of divided electrodes, and a transmission type liquid crystal panel sandwiching a liquid crystal / polymer composite material between the electrodes is provided so as to be stacked on the document table. Since the image reading device is provided with an electrode layer that covers the gap between the adjacent divided electrodes with an insulating layer interposed between the divided electrodes, the placement position of the document is visually recognized by the light transmitting part that transmits light and the cloudy part that scatters light. Can be displayed with excellent
The high light transmittance of the liquid crystal / polymer composite material in the light-transmitting part prevents reduction of the original reading sensitivity, and a separate electrode layer is provided so as to three-dimensionally cover the gap between adjacent divided electrodes. Therefore, accurate reading can be performed without omission of reading.

According to the fourth aspect of the present invention, a transmission type liquid crystal panel sandwiching a liquid crystal / polymer composite material with electrodes is provided so as to overlap with the original placing table, and the distance t between the display panel and the surface of the original placing table is t. Is an image reading device with 3 mm ≤ t ≤ 30 mm, so that a display with excellent visibility can be performed with a light transmitting portion that transmits light and a clouding portion that scatters light on the document mounting position and the like. The high light transmittance of the light-transmitting part of the polymer composite material prevents the reduction of the original reading sensitivity, and the display panel and the original placing surface have a certain distance, so that the display panel where white turbidity remains remains By moving away from the focal plane, it is possible to reduce the omission of reading and to perform accurate reading, and because the display panel and the document placing surface have a certain distance, the light scattering effect of the liquid crystal / polymer composite material increases. And Ma It is possible to improve the King performance.

According to the fifth to eighth aspects of the invention, when the read original size is input by the input means and the input signal from the input means is received by the control means, a voltage is applied to the electrode in the area corresponding to the read original size. 5. The image reading apparatus according to claim 1, wherein the switch unit turns on / off according to the pattern signal, the area corresponding to the read document size is input to the light transmitting unit when the read document size instruction is input. In addition, it is possible to easily display the read document placement position and the like by using the other as a cloudy portion.

According to the invention described in claims 9 to 12, the amount of reflected light of the white turbid portion in a state where no voltage is applied to the liquid crystal / polymer composite material of the liquid crystal panel is determined by the reading threshold of the white portion in the image reading device. Since the image reading device according to any one of claims 1 to 4 is set to a value not less than the above value, an unnecessary portion can be read as a white portion without reflecting light by the document placing table cover or the like.

[0029]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a cross-sectional explanatory view of a display mechanism of a document placing table in an image reading apparatus according to an embodiment of the present invention. Display mechanism (display panel) of the document placing table of the present embodiment
Is a liquid crystal / polymer composite material, and a lower transparent electrode made of a transparent electrode material such as tin-doped indium oxide (ITO) above and below the display layer 3 made of the liquid crystal / polymer composite material as shown in FIG. Layer 2 and upper transparent electrode layer 4, glass,
Lower holding layer 1 and upper holding layer 5 made of a light transmissive material such as a resin material such as polyethylene terephthalate (PET)
And is provided. The upper surface of the upper holding layer 5 serves as the document placing surface 6.

A resin material such as polyethylene may be inserted between the lower and upper transparent electrode layers 2 and 4 and the lower and upper holding layers 1 and 5 of the glass. It is also possible to use only the resin material on the side and omit the lower holding layer 1. In this case, the lower transparent electrode layer 2, the display layer 3, the upper transparent electrode layer 4, and the resin material sandwiching them are separately formed as one body, and are bonded to the upper holding layer 5 to form a transmissive display mechanism ( A transmissive liquid crystal panel) is manufactured.

Here, the liquid crystal / polymer composite material is a material in which a liquid crystal material and a polymer material are mixed, and is NCAP.
(Nematic Curvlinear Aligned Phase), PDLC (Po
lymerDispersed Liquid Crystal), PNLC (Polymer)
Network Liquid Crystal) is a representative example of materials called by abbreviations.

Here, the thicknesses of the upper holding layer 5 and the lower holding layer 1 are usually 10 μm to 10 mm, and particularly 0.1.
It is preferably about mm to 6 mm. The thickness of the display layer 3 is usually 1 μm to 100 μm, and particularly 10 μm to 50 μm.
A degree is preferable. The thickness of the upper transparent electrode layer 4 and the lower transparent electrode layer 2 is usually 5 nm to 500 nm, and particularly preferably about 10 nm to 200 nm.

The upper and lower transparent electrode layers 4 and 2 are
It can be formed on the lower holding layers 5 and 1 by an ordinary thin film forming method such as sputtering or vapor deposition. Also, the display layer 3
Is formed by pouring a mixed material of liquid crystal and polymer in a liquid state between the upper and lower transparent electrode layers 4 and 2, and then curing the polymer by heat or ultraviolet rays. be able to.

Since the display mechanism of this embodiment is not formed by using the deflecting plate which is required in the conventional liquid crystal display, the light transmittance in the state where the voltage is applied can be as high as 80% or more. Thus, it can sufficiently fulfill the role of a document placing table for reading a document.
Incidentally, the normal original is placed on the original placing surface 6 on the upper holding layer 5, but a separate original placing surface may be provided to add the display mechanism of this embodiment.

Next, the operation principle of the display layer in the display mechanism of this embodiment will be described with reference to FIGS. 2 and 3 are cross-sectional explanatory diagrams for explaining the operation principle of the display layer in the display mechanism of the present embodiment. As shown in FIGS. 2 and 3, in the display mechanism of this embodiment, a power supply 7 for applying a DC voltage to the upper transparent electrode layer 4 and the lower transparent electrode layer 2 is used.
And a switch 8 for turning ON / OFF the application of the DC voltage.

Here, when the display layer 3 made of the liquid crystal / polymer composite material is in an OFF state in which no voltage is applied to the display layer 3, as shown in FIG. Since the individual liquid crystal molecules that have lost their orientation due to the influence of the boundary surface and the influence of thermal vibration, etc., they are scattered when exposed to light and become clouded.

On the other hand, when a voltage is applied to the display layer 3 to turn it on, the liquid crystal molecules are aligned in the direction of the electric field and light is transmitted, as shown in FIG. Although the power supply 7 is shown as a DC power supply in FIGS. 2 and 3, an AC power supply may be used.
From the viewpoint of the life of the display panel, an AC power supply is actually preferable.

Information can be displayed by dividing a liquid crystal / polymer composite material having such an operation principle into several display pixels and selectively making them transparent. As a method of dividing the display pixel, as shown in the plan view of FIG. 4, the upper transparent electrode layer 4 and the lower transparent electrode layer 2 are divided into strips, and the strips and the lower portion of the upper transparent electrode layer 4 are divided. By arranging the strips of the transparent electrode layer 2 so as to be orthogonal to each other, rectangular display pixels can be formed at the orthogonal positions. For example, the A3 version (about 420
5 m for a display mechanism having a size of × 300 mm)
By arranging 84 × 60 m-width strip-shaped electrodes side by side, one display pixel can be about 5 mm × 5 mm.

Then, by selecting each of the upper transparent electrode layer 4 and the lower transparent electrode layer 2 divided into strips and applying a voltage, one display pixel as shown in FIG. 4 is optically transmitted. It can be made transparent. Further, when a plurality of electrodes are simultaneously selected and a voltage is applied, a plurality of display pixels can be made transparent. Furthermore, by switching the electrodes in a shorter time than the afterimage time of human eyes, it is possible to display a complicated pattern such as character information.

As shown in FIG. 4, as a method of dividing the upper and lower transparent electrode layers 4 and 2 into strips, in addition to mechanically scraping the transparent electrode layer, the transparent electrode layer is formed on the transparent electrode layer. A strip-shaped individual electrode can be formed by applying a photoresist, optically forming a pattern, and performing development and etching. For example, the reading system is 40
When it is 0 spi, the distance between the strip-shaped individual electrodes is 2
It is desirable to be about 0 μm or less, and usually 5 to 10
μm.

Here, in the display mechanism of the image reading apparatus of this embodiment (embodiment 1), a gap d is formed between adjacent display pixels, but the distance of the gap d is the minimum resolution distance ( It is desired that the distance is smaller than the minimum distance between two separately readable points, and that the distance of the gap d is preferably 1/2 or less of the minimum resolution distance in the reading device. The minimum resolution distance in the above-mentioned reading device means the minimum resolution distance at the position of the display layer. Therefore, when the document placing position and the display layer position are separated from each other, the display layer position is separated from the focus position of the reading optical system. Therefore, the minimum resolution distance is the resolution distance at the document placing position. It will be somewhat longer.

Further, the display mechanism of the image reading apparatus of another embodiment (Embodiment 2) will be described with reference to FIGS. 13 and 14. FIG. 13 is a cross-sectional explanatory view of the display mechanism of the second embodiment, and FIG. 14 is a cross-sectional explanatory view of another display mechanism of the second embodiment. The display mechanism of the second embodiment has an electrode arrangement in which the end portions of the adjacent strip-shaped individual electrodes are overlapped three-dimensionally to eliminate the gap. For example, as shown in FIG. 13, the lower transparent electrode layer 2 is made into the lower transparent electrode layers 2a and 2b having a two-layer structure with the insulating layer 9 interposed therebetween, and the adjacent electrode layers are alternately made into separate electrode layers, and further, Adjacent electrode layers 2a,
The ends of 2b are overlapped with each other with the insulating layer 9 interposed therebetween. As a result, it is possible to prevent the white turbid region from appearing when the image is read, and it is possible to prevent the read omission. Although the lower transparent electrode layer 2 has a two-layer structure here, the upper transparent electrode layer 4 may have a similar structure.

In the method of manufacturing the display mechanism of FIG. 13, ITO is laminated on the lower holding layer 1 and patterned by photolithography or the like to form the shape of the lower transparent electrode layer 2a, and then SiO ₂ , SiNx or the like. The inorganic insulating material is laminated to form the insulating layer 9, and ITO is further laminated thereon and patterned by photolithography or the like to form the shape of the lower transparent electrode layer 2b. At this time, the lower transparent electrode layer 2a and the lower transparent electrode layer 2b are formed to have an overlapping structure. Then, the upper transparent electrode layer 4 is separately formed on one surface of the upper holding layer 5, and the upper and lower holding layers 5 and 1 are brought close to each other so that the upper and lower transparent electrode layers 5 and 2 face each other. The liquid crystal / polymer composite material is poured between 5 and the lower transparent electrode layer 2 and cured by heat or the like to manufacture the display mechanism of FIG.

Further, as shown in FIG. 14, the gap between the strip-shaped individual electrodes is left as it is, and another lower transparent electrode layer 2 ′ is formed in the gap portion through the insulating layer 9 to form the display layer 3. A display mechanism in which there is no portion to which a voltage is not applied can be considered. Specifically, ITO is laminated on the lower holding layer 1 and patterned by photolithography or the like to form the shape of the lower transparent electrode layer 2 ', and then SiO ₂ , SiN.
An insulating layer 9 is formed by laminating an inorganic insulating material such as x, and ITO is further laminated thereon and patterned by photolithography or the like to form the shape of the lower transparent electrode layer 2. The subsequent manufacturing method of the display mechanism is similar to that described with reference to FIG.

The lower transparent electrode layer 2'is controlled so that when a voltage is applied to both of the adjacent individual electrodes in the lower transparent electrode layer 2, the voltage is applied in synchronization with this. , Plays a role of applying a voltage to the display layer 3 in the gap portion of the individual electrodes. Further, in FIG. 14, not only the lower transparent electrode layer 2 but also the upper transparent electrode layer 4 may be formed with another upper transparent electrode layer in the gap portion of the individual electrodes.

Further, the display mechanism of the image reading apparatus of another embodiment (third embodiment) will be described below. In the image reading apparatus of Example 3, the lower holding layer 1 made of PET and having a thickness of about 120 μm, the lower transparent electrode layer 2 made of ITO and having a thickness of about 30 nm, and the liquid crystal / polymer composite material having a thickness of about 20 μm were used. A display mechanism composed of the display layer 3 composed of the above, the upper transparent electrode layer 4 made of ITO and having a thickness of about 30 nm, and the upper holding layer 5 made of PET and having a thickness of about 120 μm is arranged on the platen glass ( At this time, the distance t between the document mounting surface and the display layer 3 is about 0.1 mm), or it is placed under a platen glass having a thickness of 3 mm (the distance t is about 3 mm). When the characteristics were evaluated by changing the distance t between the placement surface and the display layer 3, the results shown in Table 1 below could be obtained.

[0047]

[Table 1]

Here, the masking ability means that when a document image is read while the panel of the display mechanism is in a cloudy state,
The degree of the ability to shield the original image is shown. ◎ indicates that sufficient masking performance can be obtained, ○ indicates that it can be used for masking text originals, △ indicates that it can be used for masking the platen cover to the extent that it is dirty, and × indicates that it cannot be used for masking. There is.

Further, the position recognition performance indicates a sensitivity evaluation result indicating the degree to which the user of the apparatus recognizes the information indicating the original placement position displayed on the panel of the display mechanism. ◎ indicates that most people can recognize correctly, ○ indicates that many people can recognize correctly, and × indicates that many people erroneously recognize.

As can be seen from Table 1, as the distance t between the document placing surface and the display layer 3 increases, the masking ability increases, but the position recognition performance deteriorates. Therefore, in the image reading apparatus of the third embodiment, it is desirable that the distance t is about 3 mm or more and about 30 mm or less.
It is preferably about mm.

Incidentally, the masking ability depends on the liquid crystal used.
Since it changes depending on the composition or thickness of the polymer composite material,
Although the optimum value changes, the same applies in that the light scattering effect by the liquid crystal / polymer composite material increases and the masking ability increases as the distance t increases. Further, when the distance t is increased, the position of the display layer 3 is moved away from the focal position of the reading optical system of the reading device, so that the effect of the gap between the electrodes can be reduced.

Further, FIG. 5 is a copy of the case where a dirty original placing table cover is copied in a state in which a voltage is not applied to only a part of the center to make it cloudy and a voltage is applied to the other part to make it transparent. It is explanatory drawing which shows an example. As can be seen from FIG. 5, stains have not been read on the opaque portion (white turbid portion). Therefore, if the portion other than the original is opaque when the original is small, unnecessary stains will appear on the read image. It is possible not to enter. The reason why stains on the original placing table cover are not read at the cloudy portion is that the stains are blurred and the white is recognized as uniform white because the light is scattered at the cloudy portion. In addition, since the transmittance of the cloudy portion is reduced, the light of the light source during reading is not dazzled without reading the original placing table cover.

By the way, the reflectance of the cloudy portion can be changed by the particle size and density of the dispersed liquid crystal material, the refractive index of the liquid crystal material and the polymer material, or the thickness of the display layer 3. . Therefore, the reflectance is increased and the reading threshold for the white area (minimum amount of light recognized as the white area)
By setting so as to obtain the above-described amount of reflected light, the cloudy portion can be recognized as a white original without the original placing table cover.

Next, an example of a display pattern by the display mechanism of this embodiment will be described with reference to FIGS. It should be noted that not only the display mechanism of the first embodiment but also the display mechanism of the second and third embodiments can perform the same display. FIG. 6 is an explanatory diagram showing an example in which the placement position of the document is displayed. A voltage is applied between the lower transparent electrode layer 2 and the upper transparent electrode layer 4 to make the range necessary for reading corresponding to the read document to be transparent, and a light transmitting portion is formed on the document mounting surface 6, and the like. In this range, a white turbid portion is formed on the original placing surface 6 by making the white turbid without applying a voltage. For example, when the display mechanism of this embodiment is applied to a copying machine, when the paper to be used, the copy magnification, the right binding, the left binding, etc. are specified, the upper and lower transparent electrode layers divided into strips are individually separated. A voltage is selectively applied to the electrodes, and a reading range corresponding to these designations is formed by the light transmissive portion and the cloudy portion to be a display range.

FIG. 7 is an explanatory diagram showing a usage example for a copying machine. In this case, in addition to displaying the placement position of the document on the document placement surface 6, information such as the number of copies is also displayed by the partial cloudy portion. As a matter of course, the information such as the number of copies displayed in the light transmitting portion is made transparent by applying a voltage between the upper and lower transparent electrode layers of the partially cloudy portion when copying, so that it does not affect the original reading. It is designed not to give.

FIG. 8 is an explanatory diagram showing a usage example for a copying machine. As a function of the copying machine, this has a function of copying the left and right sides of a two-page spread original onto different sheets or the front and back sides of the same sheet, but in order to facilitate the original placement at this time, the original placement position and the copy order are set. This is an example in which the information of the first (A) and the second (B) is displayed. In the case of FIG. 8 as well, the information on the front (A) and back (B) of the copy is turned off at the time of copying.

FIG. 9 is an explanatory diagram showing a usage example when the display mechanism of this embodiment is applied to a scanner. In this case, the reading range of the original is displayed by using the light transmitting portion and the cloudy portion, and the information of the orientation of the original is displayed by characters and the like. The information such as the characters is also composed of a partially opaque portion and is turned off when reading.

FIG. 10 is an explanatory diagram showing an example of use when the original is small with respect to the reading range. By doing so, even if the original placing table cover and the like are dirty, it is possible to prevent the dirt from being read. If the reflectance of the cloudy portion is high, that is, if the amount of reflected light at the cloudy portion is equal to or greater than the threshold value of the white portion, do not read unnecessary portions even without the document table cover. it can.

To realize the above display pattern, the control circuit shown in FIG. 11 and the like are required. Figure 11
FIG. 3 is a schematic block diagram of a control circuit that realizes the above display pattern. As shown in FIG. 11, this control circuit is composed of an input unit 21 which is an input unit and a matrix control unit 22 which is a control unit.
Signals for controlling ON / OFF of a plurality of switches 8 (the entire switch is referred to as a switch portion 8 ') in FIG. 4 are output from 2 to 4. The matrix control unit 22
A memory 23 for storing information about the paper size corresponding to the operation mode or the direction / orientation of document placement is provided therein, and related information is stored from the memory 23 in response to an input signal from the input unit 21. It is read and the corresponding pattern signal is output to the switch unit 8 '. A light transmitting portion and a cloudy portion in the display mechanism are formed by this pattern signal, and, for example, the document mounting position or direction / direction is displayed.

Therefore, when an operation mode instruction is input to the input section 21, a signal instructing the operation mode is output from the input section 21, and the matrix control section 22 is controlled by this signal to switch the switch section 8 '. The display unit, which is a transmissive liquid crystal display panel, is operated to display the operation mode.
That is, the control circuit of FIG. 11 serves as a display control means for displaying the operation mode on the display panel. Also, the input unit 2
The corresponding copy area can be displayed on the display panel by an instruction to 1, and the control circuit serves as display control means for displaying the copy area.

According to the image reading apparatus of the present embodiment, the placement position and direction of the original are determined by the light transmitting portion and the cloudy portion of the display mechanism.
In addition to the display of the orientation, information that helps the user of the apparatus can be displayed, so that the document placement position and orientation can be prevented from being erroneous even when performing a complicated reading operation.

Further, the image reading apparatus of the present embodiment has a large light transmittance as compared with the conventional liquid crystal display because it does not use a deflecting plate, and therefore has an effect that reading sensitivity can be increased. Since the display is performed separately for the light transmitting portion and the white turbid portion, there is an effect that the visibility is excellent and information can be accurately displayed. Further, even if the document placing table cover or the like is contaminated, the white turbid portion can be read as a uniform white color, so that the effect of the contamination can be eliminated.

Since the image reading apparatus of the present embodiment using the liquid crystal / polymer composite material can switch the display at high speed as compared with the conventional liquid crystal display, information can be transmitted at high speed. This has the effect of speeding up the display process.

Further, in the image reading apparatus of the present embodiment, the interval between the display pixels in the display mechanism is set to be smaller than the minimum resolution distance of the reading apparatus, that is, the resolution at the time of inputting the image of the original document. Since the distance is smaller than the distance between the two points of the pixel determined by, there is no effect of the gap between the pixels during reading, and there is an effect that the reading can be performed neatly.

Further, in the image reading apparatus of this embodiment, the amount of reflected light in the state in which no voltage is applied to the display layer 3 made of the liquid crystal / polymer composite material is set to be equal to or more than the reading threshold value for the white portion, so that the original document is read. Even if light is not reflected by the mounting table cover or the like, unnecessary portions can be read as white parts, which has the effect of not contaminating the read image. Furthermore, in the case of copiers, etc., extra toner is consumed. There is an effect that you can hold down.

In this embodiment, the lower transparent electrode layer 2 and the upper transparent electrode layer 4 are divided into strips, and the divided electrodes are formed in a matrix so that the upper and lower electrodes are orthogonal to each other. As a simple configuration, as shown in the plan view of FIG. 12, it is possible to form a white turbid portion in a line shape so that only the portion corresponding to the sheet size forms the frame.
In this case, the display layer 3 made of the liquid crystal / polymer composite material is partially formed in the frame portion corresponding to each paper size, and the upper electrode layer 4 is formed, for example, so as to correspond to the partially formed display layer 3. It is also conceivable that the lower electrode layer 2 is used as a common electrode by partially forming the shape. In such a simple display example, the display mechanism and its drive circuit can be simplified, and the cost can be reduced.

The effects described above can be applied not only to the image reading device having the display mechanism of the first embodiment, but also to the image reading device having the display mechanism of the second and third embodiments.

[0068]

According to the invention of claim 1, at least one of the electrodes is a plurality of divided electrodes, and a transmission type liquid crystal panel sandwiching a liquid crystal / polymer composite material between the electrodes is provided on the document table. Since the gap between the adjacent divided electrodes is smaller than the minimum resolution distance at the display panel position of the image reading device, the light is transmitted to the light transmitting portion that transmits the light at the placement position of the document and the like. It is possible to display with excellent visibility with the cloudy part to be made, and the high light transmittance at the light transmitting part of the liquid crystal / polymer composite material prevents the reduction of the original reading sensitivity, and the gap between the adjacent divided electrodes is an image. Since it is smaller than the minimum resolution distance at the position of the display panel of the reading device, there is no omission of reading and there is an effect that accurate reading can be performed.

According to the second aspect of the invention, at least one of the electrodes is a plurality of divided electrodes, and a transmission type liquid crystal panel in which a liquid crystal / polymer composite material is sandwiched between the electrodes is provided so as to be stacked on the document table. Since the image reading device has the end portions of the adjacent divided electrodes overlapped with each other through the insulating layer, the placement position of the document and the like can be easily recognized by the light transmitting portion that transmits light and the cloudy portion that scatters light. Excellent display and LCD
The high light transmittance of the light-transmitting part of the polymer composite material prevents the reduction of the original reading sensitivity, and the ends of adjacent divided electrodes are three-dimensionally overlapped, so no reading omission occurs. The effect is that accurate reading can be performed.

According to the third aspect of the present invention, at least one of the electrodes is a plurality of divided electrodes, and a transmission type liquid crystal panel in which a liquid crystal / polymer composite material is sandwiched between the electrodes is provided so as to be stacked on the document table. Since the image reading device is provided with an electrode layer that covers the gap between the adjacent divided electrodes with an insulating layer interposed between the divided electrodes, the placement position of the document is visually recognized by the light transmitting part that transmits light and the cloudy part that scatters light. Can be displayed with excellent
The high light transmittance of the liquid crystal / polymer composite material in the light-transmitting part prevents reduction of the original reading sensitivity, and a separate electrode layer is provided so as to three-dimensionally cover the gap between adjacent divided electrodes. Therefore, there is an effect that accurate reading can be performed without causing omission of reading.

According to the fourth aspect of the invention, a transmission type liquid crystal panel sandwiching a liquid crystal / polymer composite material with electrodes is provided so as to overlap with the original placing table, and the distance t between the display panel and the surface of the original placing table is t. Is an image reading device with 3 mm ≤ t ≤ 30 mm, so that a display with excellent visibility can be performed with a light transmitting portion that transmits light and a clouding portion that scatters light on the document mounting position and the like. The high light transmittance of the light-transmitting part of the polymer composite material prevents the reduction of the original reading sensitivity, and the display panel and the original placing surface have a certain distance, so that the display panel where white turbidity remains remains By moving away from the focal plane, it is possible to reduce the omission of reading and to perform accurate reading, and because the display panel and the document placing surface have a certain distance, the light scattering effect of the liquid crystal / polymer composite material increases. And Ma There is an effect that it is possible to improve the King performance.

According to the fifth to eighth aspects of the present invention, when the read original size is input by the input means and the input signal from the input means is received by the control means, a voltage is applied to the electrode in the area corresponding to the read original size. 5. The image reading apparatus according to claim 1, wherein the switch unit turns on / off according to the pattern signal, the area corresponding to the read document size is input to the light transmitting unit when the read document size instruction is input. In addition, there is an effect that the read document placement position and the like can be easily displayed by making the others into a clouded portion.

According to the ninth to twelfth aspects of the present invention, the amount of reflected light of the white turbid portion in a state in which no voltage is applied to the liquid crystal / polymer composite material of the liquid crystal panel is determined by the reading threshold of the white portion in the image reading device. The image reading apparatus according to the first to fourth aspects has a value equal to or more than the value. Therefore, there is an effect that an unnecessary portion can be read as a white portion without reflecting light by the document placing table cover or the like.

[Brief description of drawings]

FIG. 1 is a cross-sectional explanatory diagram of a display mechanism of a document placing table in an image reading apparatus according to an embodiment of the present invention.

FIG. 2 is a cross-sectional explanatory view showing the operation principle of the display layer of the present embodiment.

FIG. 3 is an explanatory cross-sectional view showing the operation principle of the display layer of the present embodiment.

FIG. 4 is an explanatory plan view showing an example of division of display pixels according to the present embodiment.

FIG. 5 is an explanatory diagram showing an example of copying when a dirty original placing table cover is copied in the present embodiment.

FIG. 6 is an explanatory diagram showing an example in which a document placement position is displayed by the display mechanism of the present embodiment.

FIG. 7 is an explanatory diagram showing an example of use of the display mechanism of this embodiment in a copying machine.

FIG. 8 is an explanatory diagram showing an example of use of the display mechanism of this embodiment in a copying machine.

FIG. 9 is an explanatory diagram showing an example of use of the display mechanism of the present embodiment with respect to a scanner.

FIG. 10 is an explanatory diagram showing a usage example in the case where a document is smaller than the reading range in the display mechanism of the present embodiment.

FIG. 11 is a schematic configuration block diagram of a control circuit that realizes a display pattern.

FIG. 12 is an explanatory plan view of a simple display pattern corresponding to each paper size.

FIG. 13 is an explanatory cross-sectional view of the display mechanism according to the second embodiment.

FIG. 14 is a cross-sectional explanatory view of another display mechanism according to the second embodiment.

FIG. 15 is a schematic configuration diagram of a conventional image reading apparatus.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Lower holding layer, 2 ... Lower transparent electrode layer, 3 ... Display layer, 4 ... Upper transparent electrode layer, 5 ... Upper holding layer, 6 ...
Document placing surface, 7 ... Power source, 8 ... Switch, 8 '... Switch section, 9 ... Insulating layer, 10 ... Original, 11 ... Original placing table, 21 ... Input section, 22 ... Matrix control section,
23 ... Memory

Continuation of the front page (51) Int.Cl. ⁵ Identification number Office reference number FI technical display location H04N 1/04 Z 7251-5C // G03G 15/04 119 9122-2H

Claims (12)

[Claims] 1. A display panel is provided so as to be stacked on a document placing table,
In an image reading device for inputting an image of an original through the display panel, the display panel is a transmissive liquid crystal panel sandwiching a liquid crystal / polymer composite material with electrodes, and at least an electrode sandwiching the liquid crystal / polymer composite material. An image reading apparatus comprising one of a plurality of divided electrodes, wherein a gap between adjacent electrodes of the plurality of divided electrodes is smaller than a minimum resolution distance at the display panel position of the image reading apparatus. 2. A display panel is provided so as to be superposed on a document placing table,
In an image reading device for inputting an image of an original through the display panel, the display panel is a transmissive liquid crystal panel sandwiching a liquid crystal / polymer composite material with electrodes, and at least an electrode sandwiching the liquid crystal / polymer composite material. An image reading apparatus, wherein one is composed of a plurality of divided electrodes, and ends of the divided electrodes are overlapped with each other through an insulating layer. 3. A display panel is provided so as to be superposed on the document table,
In an image reading device for inputting an image of an original through the display panel, the display panel is a transmissive liquid crystal panel sandwiching a liquid crystal / polymer composite material with electrodes, and at least an electrode sandwiching the liquid crystal / polymer composite material. An image reading apparatus, characterized in that one is composed of a plurality of divided electrodes, and an electrode layer is provided to cover a gap between adjacent electrodes of the plurality of divided electrodes via an insulating layer. 4. A display panel is provided so as to be stacked on the document placing table,
In an image reading apparatus for inputting an image of an original through the display panel, the display panel is a transmissive liquid crystal panel sandwiching a liquid crystal / polymer composite material with electrodes, and a distance between the display panel and the surface of the original placing table. t is 3 m
An image reading device characterized in that m ≦ t ≦ 30 mm. 5. A power source for applying a voltage to an electrode sandwiching a liquid crystal / polymer composite material of a liquid crystal panel, and a switch section for turning on / off a connection between the power source and the electrode.
A voltage is applied to an input unit that inputs an instruction of a read document size and outputs an input signal corresponding to the input, and an electrode in an area corresponding to the read document size corresponding to the input signal output from the input unit. The image reading apparatus according to claim 1, further comprising a control unit that outputs a pattern signal to the switch unit. 6. A power source for applying a voltage to an electrode sandwiching a liquid crystal / polymer composite material of a liquid crystal panel, and a switch section for turning on / off a connection between the power source and the electrode.
A voltage is applied to an input unit that inputs an instruction of a read document size and outputs an input signal corresponding to the input, and an electrode in an area corresponding to the read document size corresponding to the input signal output from the input unit. The image reading apparatus according to claim 2, further comprising a control unit that outputs a pattern signal to the switch unit. 7. A power supply for applying a voltage to an electrode sandwiching a liquid crystal / polymer composite material of a liquid crystal panel, and a switch section for turning on / off a connection between the power supply and the electrode.
A voltage is applied to an input unit that inputs an instruction of a read document size and outputs an input signal corresponding to the input, and an electrode in an area corresponding to the read document size corresponding to the input signal output from the input unit. 4. The image reading apparatus according to claim 3, further comprising a control unit that outputs a pattern signal to the switch unit. 8. A power source for applying a voltage to an electrode sandwiching a liquid crystal / polymer composite material of a liquid crystal panel, and a switch section for turning on / off the connection between the power source and the electrode.
A voltage is applied to an input unit that inputs an instruction of a read document size and outputs an input signal corresponding to the input, and an electrode in an area corresponding to the read document size corresponding to the input signal output from the input unit. 5. The image reading apparatus according to claim 4, further comprising a control unit that outputs a pattern signal to the switch unit. 9. A threshold value for reading a white part in an image reading device, which is a reflected light amount obtained by being reflected by the liquid crystal panel in a state in which a voltage is not applied to electrodes sandwiching a liquid crystal / polymer composite material of the liquid crystal panel. The image reading apparatus according to claim 1, wherein the image reading apparatus is configured as described above. 10. A reading threshold value of a white area in an image reading device, which is a reflected light amount obtained by reflecting light from the liquid crystal panel in a state in which a voltage is not applied to electrodes sandwiching a liquid crystal / polymer composite material of the liquid crystal panel. The image reading apparatus according to claim 2, which is configured as described above. 11. A reading threshold value of a white portion in an image reading device, which is a reading threshold value of a white portion in an image reading device, based on an amount of light reflected by the liquid crystal panel in a state in which a voltage is not applied to electrodes sandwiching a liquid crystal / polymer composite material of the liquid crystal panel. The image reading device according to claim 3, wherein the image reading device is configured as described above. 12. A threshold value of a white area read by an image reading device, which is a reflected light amount obtained by being reflected by the liquid crystal panel in a state where a voltage is not applied to electrodes sandwiching a liquid crystal / polymer composite material of the liquid crystal panel. The image reading apparatus according to claim 4, which is configured as described above.