DE4122036A1 - Electrographic copier with editing function - allows erasure of editing zone defined by marking applied to original - Google Patents

Abstract

The analogue copier (1) has an erase device (5) for selective erasure of the latent image carried by the photosensitive imaging drum (3) in accordance with the marked editing zone defined by a marking line applied to the original. The position information for the zone defined by the marking line is held in a memory, the position information for the area outside the defined zone including the marking line itself held in a second memory. Both memories are coupled to the erasure control. The area within the marked zone and the area outside this zone are separately developed in different colours. ADVANTAGE - Good image resolution with easy operation.

Description

The invention relates to a copier, and in particular a Copier for reading an original image and creating one latent image on a photo capture element.

A rough distinction is made between analogue ones Copiers in which the latent image is projected a template image on a photo-taking element by means of an optical system for scanning the original image will hold (hereinafter referred to as "analog copier" records), and digital copiers in which a latent Image is generated based on image data that is generated by means of a optical exposure system for exposure that is independent from the optical scanning system, by optically reading the  Original image can be obtained using a photoelectric Obtain conversion signal which quantifies the image (hereinafter referred to as "digital copier").

In the commonly used analog copiers with the original image is scanned by the same optical system and exposed the photo-taking element, so that the structure of the Device is simple, and a high resolution copy image can be obtained through a cheap apparatus.

In a digital copier, any latent Image are formed using image processing on image data obtained by reading the template image and by controlling the exposure accordingly Result of image processing. In addition to improvement The image quality can be edited in numerous ways types such as partial deletion and color editing easily be performed.

One type of a known digital copier has one called mark editing function, in which a copy image is generated by deleting an image or a color conversion in an area of the template image that is surrounded by an order framing line in a certain color (marking line) give is applied.  

According to the mark editing function, a user can have a desired part within the template image as too edi denoting area in which he only this part with z. B. edged with a red pencil. So that's it Identification of the area to be edited is essential easier than with a coordinate marking, with the nu meric values can be entered, or the point identification with a stylus, and also an area any shape that is not limited to a rectangular shape is to be edited.

With the diversification in the use of copy images is also a function for an analog copier Editing of pictures desired.

With a conventional analog copier one can Area of a special color within a Delete the original image or change its color by pressing the Photo capture element using a color separation filter is exposed. However, it is impossible to copy a picture obtained by dividing the template image into an inner one Part and an outer part with a marking line around and edit it so that the marking line is not appears on the copy image. That is, it is not Mark-edit function provided.  

From this it follows that the identification of an editable Area on the coordinate marking or Ab key marking must support. The process of defining the The area is therefore difficult and it is impossible to find one To define the area with a complicated shape so that the Variety of copy images to be produced is limited.

The object of the present invention is a copier with a marker editing function, in which the Implementation of marker editing for both the operator eased and simplified on the device and different types of copying images with a marker editing Function can be achieved in the copier.

According to the invention, this object is achieved by copying device with a deletion device for the selective deletion of a latent image in accordance with a template image, that is formed on a photo sensor, and one Designation device for designating a to be edited Area on the template image around the designated area and a different area than this in different To develop colors, which is characterized by a Marking line detector device for detecting a Marking line in a given color, which corresponds to the on the Surrounds the designated image area; a first Memory for storing the position information of a first one Area surrounded by the marking line, including the  Area of the marking line itself; a second memory for Storage of the position information of a second area outside the marking line including the area of the Marking line itself; a device for generating latent Images that have a first and a second latent image, respectively generated according to the entire template image; a first Control device for controlling the extinguishing device for Erase the first latent image in the first area based on the position information contained in the first Memory is stored; a second control device to control the eraser to erase the second latent image in the second area based on the Position information stored in the second memory is; with at least two development institutions different developer colors each for developing the latent images that are not through the first or second Control device are deleted; and a Transmission device for the combined transmission of developed images on the same recording medium.

The copier with the structure described above stores the position information regarding the area in inside and outside the marking line including the Marking line and developed the latent images which based on the position information are in different colors so that the application of the Marking edition is facilitated.  

Save the copier built as described above saves the position information of the inner and outer be realms, which are indicated by a marking line in including the marking line and combines the generated occurring images based on a transmission medium on the position information, so that different colors edited copy images easily with the Mark Edition can be held.

Embodiments of the invention will be apparent from the following Figures described in detail. It shows

Figure 1 is a schematic representation for explaining the typical sequence of the copy operation in the mark-edit function according to an embodiment of the present invention.

Figure 2 shows the structure of a copying machine according to an embodiment of the present invention in a schematic sectional view.

Fig. 3 according to the structure of a Editions canceler Figure 2 in the plan view.

FIG. 4 shows an operating field, which is disposed at the top of the copying machine according to Fig 2, in the plan view.

FIG. 5 shows a block diagram of a special construction of an image processing part according to FIG. 2;

FIG. 6 is a circuit for explaining the special structure of a marking area detector section according to FIG. 5;

FIG. 7 is a schedule for explaining the operation of the marking area detector section shown in FIG. 6;

FIGS. 8A to 8E are flow charts for explaining a marking Editions process executed by a CPU shown in FIG carried out. 5,.

An embodiment of the present invention is disclosed in following described with reference to the figures.

Fig. 2 shows in a sectional view in outline shape the structure of a copying machine. 1 Fig. 2 shows in plan view a Editions-extinguishing device 5.

A photo pickup drum 3 is arranged largely in the middle of a copying machine 1 and can be rotated in the direction of the arrow M 1 , and is provided on its surface with a photo pickup layer PC. A corona charging device 4 , an edition erasing device 5 , a developing device 6 , a transfer device 11 , a cleaning device 22 and a main erasing device 23 are arranged in order around the photo sensor drum 3 .

The edition deletion device 5 has an LED field with a plurality of LEDs 65 a, 65 ..., which are arranged within a holder, as shown in FIG. 3, along a line. The LEDs 65 are arranged opposite to the photoreceptor drum 3 , and in the vertical direction (the main scanning direction) with respect to the plane of the paper in Fig. 2, an erasing distance d1 (d1 = 0.254 mm), and the timing for their on and off being individual controlled by an image processing part 100 . An erase distance in the sub-scanning direction is determined by the rotation speed of the photo-taking drum 3 and the process time for controlling the turning on and off of the LEDs 65 , and is set to 0.254 mm in the present embodiment. Therefore, the size of an erasing unit h on the surface of the photoreceptor drum 3 is 0.254 mm × 0.254 mm. The irradiation unit hi, which is irradiated by the individual LED 65 , is somewhat larger than the extinguishing unit h (d2 <d1) on the surface of the photo sensor drum 3 . That is, the irradiation units hi corresponding to adjacent LEDs 65 partially overlap each other. As a result, the lack of uniformity of the irradiation due to the directionality of the rays of LEDs 65 is compensated, the quantity of the light of the irradiation becomes largely uniform between the middle part and the peripheral part of the erasing unit h, and thereby uniform erasing becomes possible.

Back to Fig. 2 it can be seen that the Entwicklungsein direction 6 has four development units 7 , 8 , 9 , 10 , which are displaceable in an up-and-down direction (the direction of the arrow M 2 , M 3 ) in an integrated design, and allow toner to be attached to the surface of the photoreceptor drum 3 from each of the developing units. In the developing units 7 to 10 , yellow toner (Ty), red toner (Tm), blue toner (Tc) and black toner (Tbk) are accommodated. Incidentally, the shape of the developing device 6 is not limited to the shape in which the device is shifted up and down, but may be such that toners of different colors can be selectively applied to the photo pickup drum 3 .

The transfer device 11 temporarily transmits the To ner, which adheres to the surface of the photoreceptor drum 3 , on the surface of a transfer belt (intermediate transfer medium) 15 and holds it. This transmission belt 15 has on the surface of an electrically conductive base which is formed from electrically conductive polyester which contains carbon, resin or the like, dielectric materials such as polyethylene, and is stretched over the rollers 12 , 13 , 14 and carried by these, which are arranged parallel to the photoreceptor drum 3 .

Between the rollers 12 and 13 within the transmission belt 15 , a pressure roller 16 is arranged. The rollers run in a coordinated manner with respect to the photo pickup drum 3 and the up and down movement of the press roll 16 , causing the transfer belt 15 to come into contact with or away from the photo pickup drum 3 .

Along the transfer belt 15 , a guide plate 18 is provided between the rollers 13 and 14 and outside of this a cleaning device, a discharge charging device 20 , a corona charging device 21 are arranged opposite the guide plate 18 . Below the roller 14 against the transfer belt 15 is tragungsladeeinrichtung a second transfer 24 and is provided on the side of the second transfer charging device 24 is a separating charger 25 is disposed.

In the upper section of the copying machine 1 , an optical system 27 for exposing the surface of the photo sensor drum 3 is arranged. The optical system 27 is formed so that it can scan an original image in the direction of arrow M 5 (the sub-scanning direction) below a glass plate 26 and consists of a first slider 28 with an exposure lamp 29 and a mirror 31 , a second slider 32 with the mirrors 33 , 34 , a filter part 38 , a main objective 35 for guiding a scanning beam B onto the photoreceptor drum 3 and the fixed mirrors 36 , 37 . The first slider 28 runs at the speed v / n (n is the copy scale) with respect to the peripheral speed v of the photo pickup drum 3, and the second slider 32 is driven and controlled to run at the speed v / 2 n. The filter part 38 can turn on four types of filters, that is, spectral filters in each color B (blue), G (green), R (red) in accordance with the colors of the toners used for developing the latent image, such as Y (yellow). , M (red), C (blue) and BK (black) and an ND filter with a uniform light transmission characteristic in the visible range, and can use the filter in an optical way of exposure.

In the vicinity of the main lens 35 is a color image sensor 51 with a reduced size for detecting the color of each image point, which is obtained by fractionating the original image and a lens 51 a for focusing the original image on the color image sensor 51 is provided.

The color image sensor 51 has three rows of elements arranged in the sub-scanning direction, which have a plurality of photoelectric elements arranged in the main scanning direction. The first to third rows of elements are each provided with an R filter, a G filter and a B filter. A photoelectric element corresponds to a pixel of the original image, and a photoelectric conversion signal SO in accordance with the intensity of the reflected light according to a color of the pixel is supplied to the image processing part 100 from each photoelectric element.

The pixel distance of the color image sensor 51 in the main scanning direction is 0.127 mm on the original. The pixel pitch in the sub-scanning direction is determined by the scanning speed of the optical system 27 , etc., and is set to 0.127 mm in the present embodiment. Therefore, the size of a pixel is 0.127 mm × 0.127 mm, that is, a quarter the size of the erasing unit a.

In the lower part on the left side of the copying machine 1 , a paper feed section 40 is provided to feed paper P on which a copy image is to be formed. In the lower part on the right side, a receiving trough 30 is provided to receive the paper P after the Ko pierbild has been formed on the paper. The paper feed section 40 has a manual paper feed section 41 with the paper feed rollers 45 , 44 , 47 , an upper paper feed cassette 42 and a lower paper feed cassette 43 . The paper P is fed from each of the aforementioned sections. The paper P, which has been fed from the paper feed section 40 , is output into the output trough 30 via a transport path with a timer roller 46 , a transport belt 48 and a fixing device 49 .

A basic operation of the copying machine 1 constructed as described above will now be described.

When the original E has been placed on the glass plate 26 first, and when the operator has started the copying operation, the outer peripheral surface (photo-taking layer PC) of the photo-taking drum 3 is discharged by the corona charger 4 during the rotation of the photo-taking drum 3 the main motor 2 is driven, evenly charged.

In the optical system 27 , the first sliding device 28 and the second sliding device 32 run in the direction of the arrow M 5 and the reflected light of the light, which has been directed from the exposure lamp 29 onto the original D, exposes the photoreceptor drum 3 via the mirrors 31 , 33 , 34 the filter part 38 , the objective 35 and the mirror 36 , 37 . It follows that a latent image corresponding to the image of the original D (original image) is generated on the surface of the photo sensor drum 3 .

Then the surface electric charge in a predetermined area around the latent image on the photoreceptor drum 3 is deleted by the edition eraser 5 . As a result, it is prevented that toner extremely adheres to the photoreceptor drum 3 itself and a copied image with a border around the image on the paper P is formed. Simultaneously and as described later, when a marker editing mode or a full color mode is selected, the latent image which does not require development is erased in accordance with the corresponding mode.

Thereafter, the development operation is with the toner Runaway leads which has been supplied from a predetermined developing unit at a portion where the photoreceptor drum 3 and the developing device 6 through against each other, and on the photoreceptor drum 3, a toner image is formed.

In the transfer device 11 , the pressure roller 16 is driven by the main motor 2 to be moved upward, as shown in FIG. 2, the transfer belt 15 is easily with the outer circumference of the photo drum 3 between the pressure rollers 16 and 13 in Be brought into contact, and while he is moved in this state in the direction of arrow M 4 , evenly charged by the Koro naladeeinrichtung 21 . The movement speed of the transmission belt 15 is set so that it is equal to the peripheral speed of the photo drum 30 .

When the toner image formed on the surface of the drum 3 Fotoauf participants, cut against the Kontaktab is connected to the transfer belt 15, the toner image is first electrostatically manner gungsgurt the Übertra 15 transmitted.

After the first transfer, the residual toner is removed by the cleaning device 22 from the surface of the photo pickup drum 3 and the remaining electrical charge is deleted by the main erasing device 23 in order to prepare the drum for the subsequent exposure.

The toner image which has been transferred to the transfer belt 15 is conveyed in the direction of arrow M 4 with the movement of the transfer belt 15 °.

For example, the paper P, which has been fed from the paper feed guide section 40 , is sent by the timer roller 46 and is synchronized with the movement of the transmission belt 15 . Then, the toner image is transferred a second time, from the transfer belt 15 by means of electrical discharge of the second transfer charging device 24 in an area opposite to the second transfer charger 24 onto the paper P.

The paper P, on which the toner image has been transferred, is separated from the transfer belt 15 by means of the separating loading device 25 and sent via the transport belt 48 into the fixing device 49 . In the fixing device 49 , the toner image is melted in order to be able to be fixed, and the paper P on which the toner image is fixed is output as a copy image in the output tray 30 .

FIG. 4 is a plan view of an operating field 70 which is arranged on the upper side of the copying machine 1 .

On the right side of the operating field 70 is a push button 300 for starting the copying operation, an LED 300 a for lighting up in green when a copying process is possible, a seven-segment LED 301 for indicating the number of copies, a ten-key field 302 for setting the number of copies Copies and the like, an erase / stop key 303 , an interrupt key 304 , copy scale setting keys 305 , 306 , an LED 307 for displaying the copy scale, an increase key 310 and a decrease key 308 for manually setting the copy image density in step form, an automatic / manual switch button 309 for setting the image density, a density display LED 311 , an automatic density setting display LED 312 .

On the left side of the operation panel 70 , there are provided each type of dialing section, consisting of keys for selecting a copy mode and an indicator LED. That is, there is a full color mode selection section 331 , a monochrome mode selection section 332 for setting the developer color black (BK), an inside edition mode selection section 333 , an outside edition mode selection section 334 , a color selection section 325 to 327 for designating a conversion color for marking edition, and a partial erase selection section 328 .

Fig. 1 shows a schematic representation of a typical marking edition in accordance with the present invention.

In the copying machine 1 according to the present embodiment, roughly speaking, two types of modes can alternatively be selected as the marker edition mode. One is an inside edition mode in which the inner area EI of a marking line ML surrounding part of the original image G is edited, and the other is an outside editing mode in which an outside area EO of the marking line ML is edited. In each of these modes, a color conversion of the inner or outer part for performing the copying operation to replace the color of the image in the area EI or area EO with a specified color, and a partial deletion of the inner or outer portion in which the image of the Area EI or EO is deleted can be selected.

In Fig. 1, the original D is a printed matter using a paper with a white background. The template image G consists, for example, of a square g 1 , a triangle g 2 and a circle g 3 , each in black.

It is e.g. B. assumed that only the triangle g 2 in the template image G is to be replaced by a cyan triangle.

The operator first draws the marking line ML around the triangle g 2 on the template D with a writing instrument with a color (for example red) in order to designate (mark) the area to be edited.

If the template D, which is provided with the marking line ML, is then deposited on the glass plate 26 , an interior editing mode with the conversion color blue is selected on the selection sections 333 , 325 of the actuation field 70 . Original D can also be placed on the glass plate after selecting the copy mode.

When the print key 300 is pressed, the copying machine 1 preliminarily scans to read the original image G with the color image sensor 51 before the start of image formation. The photoelectric conversion signal SO of the color image sensor 51 is supplied to the image processing part 100 .

The image processing part 100 detects, as described later, the marking line ML based on the signal SO, divides the original image G into an area EA within the marking line ML including the area of the marking line ML itself (hereinafter referred to as "interior area EA") and an area EB outside of the marking line ML including the area of the marking line ML itself (hereinafter referred to as "outside area EB") in order to store the respective areas EA, EB.

Upon completion of the pre-scan described above first image generation is carried out.

By scanning with exposure, the electric charge of the photoreceptor layer PC, which has been uniformly charged by the corona charger 4 , is discharged with the light transmitted through the ND filter, and it becomes a latent image corresponding to the original image G on the photoreceptor drum 3 generated.

At the same time as this operation, the extinguishing device 5 deletes the outside area EB (state a 1 ). Then, a latent image z 2 corresponding to the triangle g 2 is developed by the developing unit 9 with blue toner, and a toner image Tc 2 is generated (state a 2 ). The toner image Tc 2 is transferred to the transmission belt 15 .

In the subsequent second image generation process, an erase process for the inner region EA of the latent image, which has been generated by the light which has been transmitted through the ND filter, is carried out (status a 3 ). Then latent images z 1 , z 3 corresponding to the square g 1 and the circle g 3 are developed by the developing unit 10 with black toner in order to generate the toner images Tk 1 , Tk 3 (status a 4 ).

Thereafter, the toner images Tk 1 , Tk 3 are transferred to the transmission belt 15 via the toner image Tc 2 which has been previously transmitted, and each of the toner images Tk 1 , Tc 2 , Tk 3 is transmitted for the second time, namely from the transmission belt 15 on the paper P to generate the desired copier image FG 1 (status a 5 ).

Next it is assumed that the triangle g 2 is reproduced in its color and the color of the square g 1 and the circle g 3 is to be replaced by magenta.

In this case, the operator selects the outside edition mode using the selection sections 334 , 326 , with red as the conversion color

In this outer edition mode, the inner area EA is deleted (status b 1 ) in a first image generation process, and the latent images z 1 , z 3 are developed by means of the development unit 8 with red toner in order to develop the toner images Tm 1 , Tm 2 to generate (status b 2 ).

Then, in a second image forming operation, the outer area EB is erased (status b 3 ), and the latent image z 2 is developed by the developing unit 10 with black toner to generate a toner image Tk 2 (status b 4 ).

Then each of the toner images Tm 1 , Tk 2 , Tm 3 is transferred onto the paper P by means of the transfer belt 15 and the desired copy image FG 2 is generated (status b 5 ).

If partial deletion has been selected in the interior editing mode on the selection sections 333 , 328, deletion is carried out for the inner region EA and the remaining latent image is developed. If partial deletion has been selected in the outdoor edition mode on the dialing sections 334 , 328 , the deletion is performed for the outside area EB and the remaining latent image is developed.

FIG. 5 is a block diagram schematically showing the structure of the image processing part 100 .

The photoelectric conversion signals SO of each color R, G, B, which are supplied from the color image sensor 51 , are amplified to a predetermined level by the amplifiers 51 a to 51 c to be applied to an analog / digital converter 101 .

The analog / digital converter 101 quantifies the signals SO in order to convert them into image data with six bits (gradation 64 ).

A shading correction part 102 performs shading correction in accordance with a distribution of light alignment (lack of uniformity of light quantity) of the illumination lamp 29 and the difference in sensitivity between the pixels of the color image sensor 51 to output image data with five bits.

A variable-copy-scale sub-scanning position correction part 103 has a plurality of line memories for delaying the output of the image data based on a line scanning time and adjusts the timing of the data output in the sub-scanning direction based on the deviation of the position of each photoelectric element R, G, B of the color image sensor 51 and the copy scale.

A color determination part 104 has a ROM for color determination which is provided with a conversion table, and supplies image data dc with two bits by classifying the color on a pixel basis according to a pixel g in black, white, gray and a chromatic color based on that Value of each date from R, G, B for a pixel g.

A pixel conversion part 105 performs data conversion to compensate for the difference between the resolution of the color image sensor 51 (200 dpi) and the resolution of the edition eraser 5 (100 dpi), that is, the difference between the pixel and the erasing unit h To be able to supply color data DC with every deletion unit h

The color data DC are supplied to a determination part 106 for the reproduction area in black (hereinafter referred to as area determination part) and to the marking area detector 108 as a marking line signal SM.

The area determination part 106 distinguishes between a monochrome area which has been reproduced by the toner BK in full-color mode and a chromatic area which has been reproduced by the composition of the toners Y, M, C to output area determination data DY, to get a natural color image.

A boundary determination part 107 detects the boundary between the monochrome area and the chromatic area and outputs color reproduction area data DX obtained by correcting the area designation data DY for a failure between the monochrome area and the chromatic area due to the overlap of the irradiation unit hi of the editions -Delete device 5 to prevent.

A marking area detector 108 generates two-bit edition area data DH having an inside area signal SA and an outside area signal SB based on the marking line signal SM.

The color reproduction area data DX and the edition area data DH are supplied to a data selector 109 as input signals to be selected, respectively. In the full-color mode, the color reproduction area data DX is selected, and in the marking edition mode, the edition area data DH is selected and applied to a main scanning part 120 with a variable copy scale.

The main scanning part 120 with a variable copy scale performs data correction in the main scanning direction for the color reproduction area data DX or the edition area data DH in accordance with the copy scale entered on the operation panel 70 . That is, in the case of enlargement, the data is doubled, and in the case of reduction, the data are thinned out so that the bit map data DM of one side of the original D is generated. The bit map data DM are stored in a memory 121 .

The memory 121 has first and second frame memories 121 A, 121 B having a storage capacity corresponding to one page of a document D having a size A third

In the marker edition mode, data corresponding to the inner area signal SA are stored in the bit map data DM in the frame memory 121 A and the data corresponding to the outer area signal SB are stored in the frame memory 121 B ge. That is, the data of the inner area EA are stored in the frame memory 121 A and the data of the outer area EB are stored in the frame memory 121 B.

The bit map data DM stored in the memory 121 is transferred to an erase control part 122 under the control of a CPU 201 when image formation is required.

The deletion control part 122 controls the edition deletion device 5 based on the bit map data DM and deletes an unnecessary latent image on the photo pickup drum 3 in each image forming operation as explained above.

Fig. 6 is a circuit of the marking area detector 108th Fig. 7 is a time chart for explaining the operation of the marking area detector 108th

The marking area detector 108 has a line memory 181 , a detector part 182 for the front marking edge, a detector part 183 for the rear marking edge, AND circuits 184 , 185 , OR circuits 186 , 188 , and a NOT circuit 187 and a blocking circuit. Circuit 189 .

Referring to Fig. 7, the marking line signal SM supplied from the pixel converting part 105 reaches an H level in the part of the marking line ML in a chromatic color and reaches an L level in the part in an achromatic color, for example, in the nth line, (n line) when scanning the template D.

The marker line signal SM is applied to the detector 182 for the front marker line, delayed for the scanning period of a line from the line memory 181 , in order to adjust the timing with the detector 183 for the rear marker line edge.

The detector 182 for the leading marker line edge generates a marker line leading edge signal Sf which reaches an H level on the first rising edge in the n line of the marker line signal SM.

The rear marker line edge detector 183 generates the rear marker line edge signal Se which reaches an L level on the last falling edge in the n line of the marker line signal SM.

A mark distance signal S1, which is a logical product signal of these signals Sf, Se and a previous line inner region signal Sa in the (n-1) th order read from the line memory 181 , is applied to the AND circuit 185 .

An interior area signal SA corresponding to the interior area EA is generated by determining the logical sum of a signal S 2 which has been supplied by this AND circuit 185 and the marking line signal SM.

In this way, the use of the preceding row inner area signal Sa in generating the inner area signal SA enables the inner area EA to be determined reliably in accordance with each marking line ML by means of hardware with a simplified structure even if a plurality of marking lines ML are arranged within a template D. are, as shown in FIG. 7.

An outdoor area signal SB is generated in accordance with the Outside area EB generated by a logical sum of one Signal SA, which by reversing the indoor area signal SA is obtained, and the marking line signal SM is formed becomes.

The inner area signal SA and the outer area signal SB are adjusted in terms of their timing by the blocking circuit 189 and supplied to the selector 109 as edition area data DH as explained above.

FIGS. 8A to 8E are flow charts of the marking Edition process as is performed by the CPU 201.

In this routine, the first thing that is checked is whether a Markie condition, which is determined by a status counter (level # 100) and the processes below in accordance with each Condition has been performed or not.

In the "0" state, when a copy request is made by pressing the key 390 and the like, it is checked whether or not the mark edition mode is selected (level # 101, level # 102).

When the marker edition mode is set, on Pre-sampling allowed and the routine continues to next state (level # 103, level # 104). If another Mode is set, a character is reset which has been set in the state described later (stage # 105).

In state "1", after the prescan is finished, checks that the part is within the marking line should be edited or not and if the inner part edi the routine continues to state "2", and if you want to edit the part off the line, the routine proceeds to state "7" (level # 111 to level # 114).

In states "2" to "6" processes are carried out in accordance with the Indoor edition mode performed.

That is, in the state "2", it is checked whether or not a color is designated for a color conversion (step # 120), and a partial erase selected by the partial erase selecting section 328 is also used as a kind of color determination is looked at.

If the determined color is Y, imaging by the developing units 8 , 9 of M and C by prohibiting the character to control the imaging is prohibited, and the routine goes to state "3" (stage # 121, stage # 122).

If the designated color is M and also C, the picture will be generation in colors other than the designated colors of Y, M, C prohibited and the routine continues to state "4" and state "5" (each level # 123 to level # 126).

If the selected color is still delete, a Imaging with Y, M, C prohibited and the routine goes continue to state "6" (level # 127, level # 128).

In step "3", it is checked whether the timing for the image formation using the developer unit 7 has been carried out with Y or not.

If it is the image processing for developing with Y, a latent image corresponding to the outer area EB is deleted based on the bit map data DM read out from the second frame memory 121 B (level # 131, level # 132).

If it is the image generation for the development with colors other than Y, a latent image corresponding to the inner area EA is deleted based on the bit map data DM read out from the first frame memory 121 A (level # 133, level # 134). Then, after the copying operation is finished, the state is reset to "0" (level # 135, level # 136).

In the states "4", "5", it is checked whether the timing for the image formation using the developer unit 8 with M and the developer unit 9 with C has been carried out, respectively, and if the image generation for development in the corresponding colors is determined, the process of step # 131 is performed as described above, and if the image formation for developing with other colors has been determined, the process of step # 133 is carried out (step # 140, step # 150).

In state "6", the process of step # 133 becomes immediate carried out.

In states "7" to "11" processes are corresponding the outdoor edition mode.

In state "7" is about the specific color for the color conversion determined and the image generation in an unnecessary Color prohibited in accordance with the designated color and the routine goes to states "8" through "11" (Level # 160, Level # 168).  

In state "8", in contrast to state "3", a latent image corresponding to the interior area EA is deleted, based on the bit map data DM which have been read out of the first frame memory 121 A (stage # 171, stage # 172) when the Imaging with developing in Y has been performed.

When the image formation in which the development is to be performed with colors other than Y has been determined, a latent image corresponding to the outside area EB is deleted based on the bit map data DM read out from the second frame memory 121 B (step # 173 , Level # 174). Then, after the copying operation is completed, the state is reset to "0" (level # 175, level # 176).

In the states "9" and "10", it is checked whether the timing circuit for the image generation using the developer unit 8 with M and the developer unit 9 with C has been carried out or not, and if the image generation has been determined, at which is developed in the corresponding colors, the process of step # 171 is carried out as described above, while if the image formation has been determined in which other colors are to be developed, the process is carried out according to step # 173 (step # 180, level # 190).

In state "11", the process of step # 173 becomes immediate carried out.

According to the embodiment described above, the original image is divided into the inner region Ea and the outer region EB, which overlap each other in the region of the marking line in the form of a loop with a predetermined width, the data of the regions EA, EB being in the first and second respectively Frame memories 121 A, 121 B are stored, the latent images of the areas EA, EB are optionally deleted during image generation, so that the marking line ML does not appear on the copy image FG.

According to the embodiment described above, the Area inside or outside of the ML marking line as areas to be edited are designated so that the Image editing a diversification can be achieved.

While the part in the chromatic color of the original D as Marking line ML at the one described above Embodiment is detected, a part in one special color or part in the form of a loop a width with a certain value or above it can be detected as a marking line ML. In the above The embodiment described can be the order of the Imaging in Y, M, C and BK in a suitable manner be changed.  

While the copying machine 1 described as an example in the above-described embodiment can perform full-color reproduction because it has the developing units 7 to 9 in the three primary colors Y, M, C, the present invention can also be used for a Ko can be used that can only copy, for example, in two colors, using, for example, black and red as developer colors.

The embodiment described above has been referenced on the marker edition function for an analog Copier described. The present invention can ever but can also be used with a digital copier which a template is read electrically and a latent Image using an optical exposure system, such as for example a laser beam based on the read one Template information is formed to obtain a copy.

When applying the present invention to a digital copier can be an optical system for exposure so ge controls that a picture part corresponds to a part that in a first frame memory (which contains the position information an area within and including the marker line stores), is stored, is not exposed (Screen writing), and continue the optical system for the Exposure is controlled so that an image part accordingly  a part like that in a second frame memory is stored (which is the position information of an area outside and including the marker line) is exposed (writing).

According to the present invention, an area with be arbitrary form an area to be edited and in addition different types of copy images can be obtained, when using the Mark Editions feature with it is simple, the area to be edited in the copier to call.

Although the present invention is fully based on the Fi guren and embodiments has been described remains note that numerous changes and modifications conceivable within the scope of the claims are.

Claims (1)

Copier with an eraser ( 5 ) for selectively erasing a latent image in accordance with a template image formed on a photo sensor ( 3 ) and a labeling device (ML) for labeling an area to be edited on the template image develop the designated area and an area other than this in different colors; characterized by :
Marking line detector means ( 108 ) for detecting a marking line in a predetermined color surrounding the area indicated on the original image;
a first memory ( 121 A) for storing the position information of a first area surrounded by the marking line including the area of the marking line itself;
a second memory ( 121 B) for storing the position information of a second area outside the marking line including the area of the marking line itself;
latent image forming means that generates first and second latent images corresponding to the entire original image, respectively;
first control means ( 122 ) for controlling the erasing means and erasing the first latent image in the first area based on the position information stored in the first memory;
second control means ( 122 ) for controlling the erasing means and erasing the second latent image in the second area based on the position information stored in the second memory;
at least two developing devices ( 6 ) with different developer colors each for developing the latent images which are not deleted by the first and second control devices; and a transfer device for combined transfer of the developed images to the same recording medium.