JPH0421871B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to an electrophotographic apparatus that uses the so-called Carlson process to copy an image of a document surface onto plain paper, and more specifically, to The present invention relates to an electrophotographic apparatus that can control the amount of exposure to a photoreceptor according to the specified position on the document surface, and can perform various processing on the copied image according to the specified position.

Structure of a conventional example and its problems FIG. 1 shows a schematic structure of a main part of an example of a conventional electrophotographic apparatus using the Carlson process. In FIG. 1, photoreceptor 10 is rotating in the direction of arrow 12 when copying is performed, and first, a uniform charge is applied to the surface by corona discharge from charger 14. The original surface 18 of the original 16 is irradiated with light by a fluorescent lamp 20 serving as an original irradiation means, and a reflected image thereof is formed on the photoreceptor 10 through an imaging optical system such as an optical fiber 22 having a lens effect. , the above document surface 1 in synchronization with the rotation of the photoreceptor 10.
The document surface images are sequentially exposed onto the photoreceptor 10 from the right end to the left end of the photoreceptor 8. In the developing device 24, toner adheres to the photoreceptor 10 according to the charge distribution of the electrostatic latent image generated on the photoreceptor 10 by exposure of the original surface image, and a developed image is formed on the photoreceptor 10. This developed image is transferred onto the plain paper 11 by the transfer charger 25 to form a copy image.

By the way, when obtaining a copy image, there is a desire to perform various processing on the image, such as adjusting the density, erasing a specific part of the image, or leaving a certain part of the image.

However, in conventional electrophotographic apparatuses, the light source for exposing the photoreceptor is only a single fluorescent lamp 20;
Moreover, the exposure from this fluorescent lamp 20 is limited to the original surface 18.
This is exposure of a reflected image from the photoreceptor 10, and there is no irradiation means for directly irradiating the photoreceptor 10. Therefore, although it is possible to reduce the amount of exposure to the photoreceptor 10, increasing the amount of exposure requires a significant increase in the amount of light emitted from the fluorescent lamp 20, which is not practical. Even if you try to erase part of the original image,
Since a light source such as a fluorescent lamp is used, there are problems such as it is difficult to adjust the exposure amount by dividing the area according to the specified position, and in practice it is difficult to control the copied image. It was difficult.

Purpose of the Invention The present invention eliminates such drawbacks of the conventional example, and by specifying a position on the document, the exposure to the photoconductor is controlled according to the specified position on the document surface. It is an object of the present invention to provide an electrophotographic apparatus that can perform various types of control over a copied image according to the specified position.

Structure of the Invention The present invention includes an original irradiating means for irradiating a document surface with light to obtain a reflected image, an imaging optical system for forming a reflected image of the document surface on a photoreceptor, and a light source that illuminates the photoreceptor surface. a photoreceptor irradiation means for irradiating the photoreceptor, a position specifying means, and a document placement surface, and a position indicated by the position instruction means on the document surface placed on the document placement surface. a position detecting means for detecting the image; a function specifying means for selecting and specifying a control function for the image; control means for controlling the operation of the photoreceptor irradiation means to perform a specified function, and further controlling the operation of the document irradiation means and the imaging optical system; performing a first exposure of the original surface image onto the photoreceptor by an original irradiation means and an imaging optical system, and a second exposure of the photoreceptor to the photoreceptor by the photoreceptor irradiation means;
By configuring the first exposure and the second exposure to overlap, and by providing the function specifying means in addition to the position detecting means, it is possible to perform various processing on the copied image, and to specify the types of functions for this processing. This makes it easy to make a selection.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 2 is a perspective view of essential parts showing the structure of an embodiment of the electrophotographic apparatus of the present invention. In FIG. 2, when copying, a photoreceptor 10 rotates in the direction of an arrow 12, a charger 14 surrounds the photoreceptor 10, and a document surface 18 of a document 16 placed on a document table 26 is irradiated with light. A fluorescent lamp 20 as a document irradiation means and an optical fiber 22 having a lens effect as an imaging optical system are provided. The above document table 26
moves in the direction of the arrow 30 in synchronization with the rotation of the photoconductor 10, thereby exposing the document surface image on the photoconductor 10 sequentially from the right end to the left end of the document surface 18 placed on the document table 26. It will be done.

Similar to a conventional electrophotographic apparatus, an electrostatic latent image is formed by applying an electrostatic charge to the photoreceptor 10 and exposing the image on the document surface, and the charge distribution of the electrostatic latent image is changed by the developing device 24. Accordingly, toner is attached and a developed image is formed on the photoreceptor 10. In this embodiment, a fluorescent lamp 20 is further used as document irradiation means.
A large number of light emitting diodes 32 are provided in an array along the width direction of the photoreceptor 10 as a photoreceptor irradiation means for directly irradiating the photoreceptor 10 with light between the photoreceptor 10 and the developing device 24 . The amount of light emitted from the light emitting diode 32 can be arbitrarily set by the amount of current supplied to the light emitting diode 32, and a control circuit 34 for controlling the amount of current supplied to the light emitting diode 32 via the flexible wiring board 33 32. A document 16 is further placed on the control circuit 34, and a placement surface 19 of the document 16 is placed on the control circuit 34.
A position detecting plate 36 serves as a position detecting means for detecting the position specified above, and an instruction panel 41 serves as a position detecting means for selecting and specifying various functions of this electrophotographic apparatus.
are connected. An indicating pen 38 serving as a position indicating means for indicating a position on the placement surface 19 is connected to the position detection plate 36 . The position detection plate 36 has an X coordinate with the coordinate origin 40 as the origin.
An orthogonal coordinate system consisting of the axis and the Y axis is formed. The original 16 is placed on the position detection plate 36 with one end aligned with the coordinate origin 40, the original surface 18 facing upward, and the edges of the original aligned with the X-axis and Y-axis. The position detection plate 36 and the pointing pen 38 constitute a so-called electromagnetic induction type coordinate input device that is electromagnetically coupled to each other.

Next, an example of specifying a position on the position detection plate 36 within the XY plane using the pointing pen 38 will be explained with reference to FIG. First, by pressing the position detection plate 36 at two points A (X ₁ , Y ₁ ) and B (X ₂ , Y ₂ ) with the pointing pen 38, the two
Points A and B are input to the control circuit 34, and based on this input, points A (X ₂ , Y ₁ ), which are indicated by diagonal lines in FIG.
A rectangular area surrounded by C(X ₂ , Y ₁ ), B(X ₂ , Y ₂ ), and D(X ₁ , Y ₂ ) is calculated and stored as a designated position. On the instruction panel 41, for example, the above-mentioned rectangular area ACBD is left and the other document surface images are erased. The document surface image corresponding to the rectangular area ACBD is erased and the other parts are left. The copy image density of the document surface image corresponding to the rectangular area ACBD is reduced. Key switches 41a, 4 for selecting and specifying the required image control method such as
1b, 41c, etc. are provided, and the necessary image control method is selected by these.

The document 16 whose position on the document surface has been designated as described above is transferred onto the document table 26 with the document surface 18 facing the document placement surface 28 . At this time, the document placement surface 28 has an X'-axis and a Y'-axis with the starting point 42 where the phase of the document table 26 matches the phase of the photoconductor 10 when exposing the document surface image onto the photoconductor 10 as the origin. When transporting the original 16, the end points on the original 16 are aligned with the coordinate origin 40 on the position detection plate 36, and the original is aligned with the X-axis and Y-axis. By aligning the 16 edges with the starting point 42, the X' axis, and the Y' axis, it is possible to check the consistency between the coordinates on the position detection plate 36 and the coordinates on the document table 26, as well as the starting point 42 on the document table 26. It is possible to maintain phase consistency between the photoreceptor 10 and the photoreceptor 10. Note that the control circuit 34
Although the connection relationship is not shown in the figure, it also has a control function for the entire electrophotographic apparatus other than the light emitting diode 32 through the wiring group 43.

Next, a copying operation in this embodiment will be described using as an example a case where an attempt is made to erase a document surface image corresponding to a rectangular area ACBD designated by the above-described procedure. First, a first exposure is performed to sequentially expose a reflected image of the document surface 18 onto the photoconductor 10 using the fluorescent lamp 20, and an electrostatic latent image corresponding to the document surface image is formed on the photoconductor 10. Ru. Thereafter, the photoreceptor 1 is illuminated by the light emitting diode 32.
A direct second exposure to 0 is performed, and the first exposure and second exposure are superimposed. In the second exposure, a width X ₁ X ₂ corresponding to a rectangular area ACBD on the document surface is The light emitting diode installed in
It is controlled by the control circuit 34 so that it is turned on only during the length Y ₁ Y ₂ corresponding to the rectangular area ACBD with an amount of light emitted that can erase the electrostatic latent image corresponding to the image on the document surface. The electrostatic latent image on the document surface 18 is formed by the first exposure, and the electrostatic latent image in the portion corresponding to the rectangular area ACBD is erased by the second exposure. is developed to form a visible image.

FIG. 4 is a perspective view of essential parts showing the structure of another embodiment of the electrophotographic apparatus of the present invention. In Figure 4,
The same components as in FIG. 2 are given the same numbers. In FIG. 4, the instruction panel 41 in FIG. 2 is removed, and instead a function designation area 50 is provided on the mounting surface 19 as a function designation means. The function designation area 50 is divided and allocated for each function on the mounting surface 19 by printing, and a desired function is selected and designated by pointing the corresponding area with the pointing pen 38. That is, it is determined which function has been selected from the coordinates indicated by the pointing pen 38. With this configuration, the position on the document and the function selection can be specified using the same pointing pen, and excellent operability can be achieved.

Note that if the function designation area 50 is printed on a separate sheet and placed on the placement surface 19 so that it can be replaced,
It is also possible to provide the mounting surface 19 with a protective sheet function. Furthermore, even better operability can be achieved by writing on this sheet a mark that regulates the placement position of the document, a grid according to the resolution of the coordinates, and the like.

Effects of the Invention As described above, the present invention provides, in addition to the document irradiation means for irradiating the document surface on the document table in the conventional electrophotographic apparatus with light to obtain a reflected image, the present invention directly irradiates the photoreceptor surface with light. By providing a photoconductor irradiation means for adjusting the amount of exposure to the photoconductor, a position detection means for detecting a specified position on the document surface and the operation of the photoconductor irradiation means can be adjusted. By providing a control means for controlling, the amount of exposure to the photoreceptor is adjusted according to the specified position on the document surface, and various processing is applied to the copied image according to the specified position. be able to. Furthermore, excellent operability can be achieved by providing a means for selecting and specifying various functions together with a position detecting means.

[Brief explanation of drawings]

FIG. 1 is a schematic front view of main parts of a conventional electrophotographic apparatus, FIG. 2 is a perspective view of main parts of an electrophotographic apparatus according to an embodiment of the present invention, and FIG. 3 shows area designation on a document surface. The plan view and FIG. 4 are perspective views of essential parts showing the configuration of another embodiment of the present invention. 10... Photoreceptor, 14... Charger, 16... Original, 20... Fluorescent lamp, 24... Developer, 26...
Original table, 32...Light emitting diode, 34...Control circuit, 36...Position detection plate, 38...Instruction pen,
41... Instruction panel, 41a, 41b, 41c...
...Key switch, 50...Function specification area.

Claims (1)

[Scope of Claims] 1. Original irradiation means for irradiating light onto the original surface on the original table to obtain a reflected image; and an imaging optical system for forming the reflected image of the original surface on a photoreceptor; It has a photoreceptor irradiation means for irradiating light onto the photoreceptor surface, a position indicating means, and a document placement surface, and the position instruction means on the document surface placed on the placement surface. a position detecting means for detecting the indicated position; a function specifying means for selecting and specifying a control function for the image; and a position detecting means for detecting the position on the document surface detected by the position detecting means. control means for controlling the operation of the photoreceptor irradiation means to perform the function specified by the function specification means, and further controlling the operation of the document irradiation means and the imaging optical system; performing a first exposure of the original surface image onto the photoreceptor by the original irradiation means and the imaging optical system, and a second exposure of the photoreceptor to the photoreceptor by the photoreceptor irradiation means;
An electrophotographic apparatus characterized in that the first exposure and the second exposure are arranged to overlap each other, and the function specifying means is provided in addition to the position detecting means. 2. The electronic photograph according to claim 1, wherein the function specifying means is a predetermined area within the same plane as the above-mentioned placement surface, and the function specifying means is configured to specify a selection. Device.