DE2924912A1 - METHOD AND DEVICE FOR ELECTROSTATICALLY PRINTING AN EXTENDED CARRIER WITH COMPOSED COLOR IMAGES - Google Patents

Description

-.o rr ?. 37 SOOO MUNICH 2 TEL. O 89/59 67 84

2324312

Munich, June 19, 1979 Lawyer files: 18l - Pat.

Coulter Systems Corporation, 35 Wiggins Avenue, Bedford, Massachusetts 01730 »United States of America

Method and apparatus for the electrostatic printing of an expanded substrate with composite color images .

The invention relates to a method and apparatus for electrostatically printing color images.

Color prints are usually produced by mixing colors on the substrate to be printed by adding the individual Individual prints corresponding to color separations can be printed on top of one another with an exact fit. So, for example, becomes a colored object or a colored picture photographed through various filters, whereby the individual color separations for the Printing colors yellow, purple, cyan and black are formed. These color extracts are applied to panels, which are used in the printing press. The carrier to be printed travels through the printing press and is sequentially printed from the individual plates.

The electrostatic methods currently available for producing multicolor prints are complex, expensive and not very reliable. Usually, the production of the plates corresponding to the color extracts for the different basic colors required. The use of xerographic processes or the electrofax process for Multi-color printing is by design.

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The electrostatic methods used heretofore require direct transfer or imaging for each Print copy.

The invention is based on the object of a device and a method for electrostatic printing of a To create a carrier with composite color images, in which the corresponding to the individual color separations to be printed Partial images formed semipermanently in an electrostatic manner on sleeves of electrophotographic material so that these images remain on the cuffs throughout the entire print run. When using Such a method and such a device, it is also desirable to use the various To be able to set parameters that are decisive for the individual color partial prints, preferably automatically, so that no impairments in connection with the printing of the respective remaining color sub-images at the respective other printing stations appear.

The method according to the invention is described in claim 1.

Advantageous further developments of the method are the subject matter of subclaims 2 to 6, which are hereby expressly referred to is referred.

The device according to the invention is described in claim 7.

Advantageous further developments and refinements of the device can be found in subclaims 8 to 19 which is hereby also expressly referred to.

The invention is explained in more detail below with reference to the drawings:

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FIg. 1 shows a schematic view of a device for Implementation of the method according to the invention. It is used to print composite color images on a moving surface,

FIG. 2 shows a schematic representation to illustrate a method for producing a master cuff for use in connection with the method according to the invention,

Fig. 3 shows a schematic view for illustration »- tion of a further method for producing a master cuff for use in the method according to FIG the invention.

The present printing process requires the production of a master sleeve serving as an image carrier. This master cuff preferably rotates in the form of a cylinder. It touches the substrate to be printed, which is described in the following is also referred to as a carrier, either directly, with it corresponding in the direction of movement of the base Direction rotates, or the direction of its circumferential movement Is opposite to the movement of the base. In the latter case, the master cuff serves as an intermediate medium, through which the image developed with the aid of a toner on the master cuff is transferred to a second cuff or a pressure jacket is transferred »from where it is then is delivered directly to the document to be printed. In this case, the image is indirectly taken from the master cuff transferred to the document. The device described below contains a number of stations, each in relation to the various necessary to produce the necessary print or image on "the substrate." Parameters can be controlled independently of each other.

1 shows a printing press 70 with four such stations, 72, 74, 7-6 and 78, it being assumed that this printing press 70 is used for production

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used for color printing on paper.

The substrate 80 to be printed travels through the machine 70 and moves through various rollers, clamping devices, etc., which are not shown in the drawing. There is a master cuff at the first station 82 mounted on a roller 84. In this case, the master cuff has a cylindrical shape. she can also be used in the form of a belt. The cuff 82 need not necessarily be transparent be. It preferably has a coating of a photoconductive coating which is applied to a thin metallic cylinder is applied, this cylinder being held by suitable means on the roller 84 in a cylindrical shape is.

The cuff 82 is formed from an electrophotographic material. This comprises a substrate which, if it is made of synthetic resin, for example transparent polyester, has an ohmically conductive intermediate layer and on the outside of which it has a photoconductor coating. If the substrate is made of metal, the photoconductor coating consists of a completely inorganic compound, preferably of cadmium sulfide (CdS), this material being applied (sputtered) to the substrate as a microcrystalline transparent document with high quantitative yield by a sputtering process. The cuff 82 carries an image, preferably in the form of a digitally coded color separation, which has been applied in the manner described below in connection with FIG. 2 or 3. ^{In this process, the image is developed 11} with a dielectric toner, also referred to as primary toner, and fused in such a way that it is fixed semi-permanently on the outer surface of the master sleeve 82.

The individual stations of the printing press shown in FIG. 1 also have a pressure roller 86, which the

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ORIGINAL INSPECTED

drove the pad 80 from left to right and / or transferring the toner image from the outer surface of the master sleeve 82 supported on the underside of the pad 80.

In operation, the master cuff 82 is charged by a suitable device 88, and then or also exposed at the same time.

The exposure that occurs after the cuff 82 is charged causes the charge to be retained on the dielectric toned parts and from the parts not provided with toner flows off, so that a secondary charge image is created, which then becomes a secondary toner bath 90, in which the secondary charge image is developed, i.e. made visible by toner will. This developed secondary image moves on as a result of the rotation of the roller 84 and comes to the point which is opposite the roller 86, with the printing pad 80 in connection. The transfer of the image to the base 80 takes place either by pressing force or by an electric field created by the roller 86 and the toner bath 90 or the roller 84 connected voltage source supplied will. In either case, a bias field is applied to the space through which the pad moves. This field supports the transfer of the secondary toner to the underside of the support 80. It can also be an intermediate carrier or a transfer roller may be provided.

When the secondary image made visible by the toner is transferred to the base 80, the latter migrates over a heat source 94 that freezes the image.

The other stations work in the same way and are also constructed in the same way as the previous ones described station 72. The difference between the individual stations is that the characteristic

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Parameters such as voltage, temperature, etc. can have different values. It has been found that Different toners require different voltages, temperatures, etc. so that the use of a sequence is independent working stations leads to the best results. It has even been found that the image transmission requires bias voltages of opposite polarity in certain cases to achieve optimal results.

After the individual images have been applied, the density information can be scanned. This is used for example the device 64 which includes an optoelectronic transducer. The output of this device is fed to a control signal converter 66 which changes the bias voltage generated in the device 92 in such a way that that an optimal image density results.

When the pad or carrier 80 leaves station 78, the four images corresponding to the separations are brought together on the underside of the pad 80, with (not shown) suitable devices ensure an adjustment that ensures the positionally accurate composition of the partial images. From station 78 the printed carrier 80 migrates to trimming, separating, folding devices, transport rollers, etc. These devices are not shown in the drawing.

In Fig. 2, a supply roll 96 of the transparent electrophotographic is seen Material shown from which cuffs are made. This material can be before or are welded together to form a ribbon loop 20 after the image has been applied. The belt loop 20 can Bring into the shape of the sleeve 82 and assemble in a cylindrical shape. The image can be seen on the belt loop 20 can be projected. It does this through charging, exposure, dielectric toner development, and fixing. Preferably, however, the image is digitally

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applied "so that no screen is required and none problems caused by optical projection media occur.

For this purpose, a suitable multicolored original © is scanned, where their colors are separated from each other and the corresponding information in the form of binary digital values (bits) in an electronic memory 98 are stored. The stored information modulate a laser less Power, for example a helium-neon laser 100, The modulated beam of the laser 100 is via reflectors 102 and 104 at the point 106 onto the surface of the electrophotographic Roll 96 material is projected as that material is unwound. With the help of suitable drive means The reflectors 102 and 104 can be controlled in such a way that they are used in the conversion of the continuous Bifetrome in the on the surface of the electrophotographic Information to be applied during the forward and backward movement of the beam the necessary correction and carry out compensation measures. The material is first charged with the aid of device 108, then - as mentioned - exposed at the point 106, provided with toner in the device 110 and finally in the device 112 fixed. The resulting image is now semi-permanently fixed. The required length of material can be cut from the roll 96 and formed into the cuff 20 in the form of a ribbon loop by removing the ends be welded together. However, the material can also be clamped in sheet form on a drum.

Fig. 3 shows a device with the help of which a cuff directly as a cylinder, for example in the in Fig. 1 with 82 designated shape can be produced. The sleeve 82 is in the form of a thin-walled cylinder made of metal or the like and has a covering made of the above-described photoconductive material = - you "is mounted on a driven drum 114 = a load

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ser 116, which can be of the same type as that in Fig. 2 with 100 and which is controlled by an electronic memory 117, directs a modulated light beam 118, which contains the image information in the form of digital binary values, onto a traveling mirror 120, the is mounted on a suitably driven guide rod 122, so that the digitized image content reflecting bits are appropriately applied to the surface of the sleeve 82, where they are the desired Generate color separation of a multicolor image. A corona device 124 is used to charge the surface while a toner device 126 performs the development of the latent image after it is exposed 128, a fixing device is indicated in Fig. 3, which is located on the opposite side of the viewer Drum 114 is located. This fixing device 128 serves to remove the dielectric toner on the master sleeve 82 to fix the formed image semi-permanently.

After the master sleeve 82 has been tonered and the image on it fixed, it is removed from the drum 114 removed and in a suitable device, for example in station 72 of the printing press shown in FIG Installed.

During the operation of the station 72 shown in FIG. 1, after the transfer of the secondary toner to the carrier 80 Toner residue remains on the surface of the sleeve 82. This can be done with a suitable cleaning device 87 can be removed.

It is recommended that the cuff 82 be "on line" with the desired To provide an image, i.e. to leave the cuff firmly in the device 72, but this with a device equip, by means of which the image from the memory is applied to the cuff and fixed ready for use can be. At the station 76 (Fig. 1) are these

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parts required "exemplified:.. A device, shown as block 130 includes the punctures that are exerted in the illustrated in FIGURE 3 apparatus from the laser II6 and the movable mirror 120, the charging device 88 'is used for charging the cuff 82 ·, the Toner device 90 'develops the latent image by applying the toner, and a fixing device 132 then fixes the developed image.

All of this occurs during a series of revolutions before the carrier 80 contacts the surface of the sleeve 82 '. is brought into contact. During these preparatory operations, the cleaning device 87 'is not in Function.

Once the desired image is semi-permanent on the cuff 82 · is applied, the devices I30 and 132 is disabled and the toner device 90 'operates then together with the charging device 88 'and the cleaning device 87'.

The term "semi-permanent" used in the foregoing description means that the corresponding images have them extinguished with suitable chemicals that do not attack the photoconductive surface of the sleeve. For example, even fused images of a dielectric toner with the help of acetone or sometimes can also be removed with the help of warm ethyl or methyl alcohol.

The images developed with dielectric toner must not colored. The images made with secondary toner, on the other hand, have to be colored.

The toners referred to as "dielectric toners" in the foregoing description have the property that they

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are highly insulating after fixation, so that no electrical charge flows away from them.

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Empty soap

Claims (19)

2324912 Claims * Method of electrostatic printing on an extended Carrier with composite color images, the color images repeated and spaced from one another are applied to the carrier and each of them from a plurality of individual prints each different Color is composed and furthermore a number of printing stations corresponding to the number of color separations is used, in each of which a single print of a certain color is produced, characterized by the following process steps: a) A master cuff is required for each of the printing stations mentioned made of electrophotographic material provided with a continuous rotary motion is acted upon, while the carrier to be printed at the same time by the corresponding printing station is moved, wherein the master sleeve is formed of a dielectric toner semi-permanent carries a fixed image that is reproducible for the formation of the relevant partial print on the carrier, b) during the rotary movement of the master sleeve, a secondary image is created on the semi-permanently fixed toner image unfixed toner image generated, c) the secondary unfixed toner image is when the carrier to be printed passes through the respective Transfer printing station to the surface of the carrier, d) the unfixed toner image becomes after the transfer fixed on the carrier during its further movement, e) process steps b), c) and d) are performed on each Repeated printing station, the individual prints generated at the individual printing stations in mutual Fit to be applied. 2. The method according to claim 1, characterized 909882/0786 2324912 net that the secondary unfixed toner image is transferred directly from said master sleeve to the carrier will. 3. The method according to claim 1, characterized in that the secondary unfixed toner image from the master sleeve to a transmission medium and from a second cuff is transferred directly to the wearer. 4. The method according to any one of claims 1 to 3, characterized in that the transmission of the secondary unfixed Toner image is electrically effected or supported on the carrier. 5. Method according to one of claims 1 to 4, characterized characterized in that the image on the master cuff prior to commissioning of the printing station in question Digitization of a corresponding template, storage of the digitized information, modulation of a Laser beam with the stored digitized information, description of the master cuff with the modulated Laser beam, developing the master sleeve with a toner and fixing the developed image will be produced. 6. The method according to any one of claims 1 to 5> characterized in that the density of the applied to the substrate fixed toner image measured after fixing and the corresponding measured value for controlling the Image transfer is used. 7. Apparatus for printing a moving carrier with a composite image pattern that is made of precisely fitting consists of individual prints of different images with different colors printed on top of one another, with a A plurality of printing stations, which have essentially the same construction and are used for production 909882/0786 each suitable for a single color print on the carrier, as well as with a conveyor device for moving an extended carrier through the individual printing stations of the device,
characterized,
that each printing station contains the following parts: a) A rotatably arranged master sleeve, which is an electrophotographic component with an outer covering made of photoconductive material and bearing an image representing one component of one of several components Composite image represents and that an electrostatically produced on said outer covering is fixed dielectric toner image, b) Devices for charging the fixed toner image and for producing a corresponding secondary toner image, which is produced by applying a toner developed but not fixed, o) a device for transferring the secondary toner image to a surface of the through the Moving carrier printing station, d) a device for fixing the image transferred onto the surface of the support, this fixing before the carrier moves on to the next printing station and the production a partial print of a predetermined color (color separation) ended, e) a device for removing excess toner from the transfer of the unfixed image is not accepted by the carrier, wherein the plurality of printing stations are arranged so that printing occurs as the carrier moves the device is repeated continuously, so that the carrier when leaving the device with continuous Rows of the same composite image is printed. 8. Device according to Ansprudi7, characterized in that 909882/0786 ORiGlNALiNSPECTED ^ 2324912 net that the sleeve is arranged so that it rotates into a position next to the carrier to be printed, its peripheral speed corresponds to the linear speed with which the carrier moves through the relevant printing station moves, and that the printing station has a device for the direct transmission of the Image of the cuff on the surface of the carrier traveling through the printing station. 9. Apparatus according to claim 7, characterized in that the sleeve has a cylindrical shape. 10. Apparatus according to claim 7, characterized in that the sleeve consists of a thin-walled metal cylinder and that the coating of photoconductive material adheres directly to this metal cylinder. 11. The device according to claim 7, characterized in that the device for transmitting the secondary Toner image a second rotating sleeve and a device for transferring the image from this second Includes cuff on the carrier, and that the second cuff is arranged so that it is the secondary Brings the toner image into a suitable position for transfer to the carrier when the latter passes through the Print station moved through. 12. The device according to claim 11, characterized in that one of the sleeves is in the form of a belt loop Has. 13. Device according to one of claims 7 to 12, characterized in that the device for transmission of the toner image on the carrier to be printed includes a pressure roller, which is located on the sleeve remote surface of the carrier is located. 909882/0786 '%' ■ . ■ -. 2324912 14. Device according to one of claims 7 "to 13, d a through marked! that the device for removing excess toner has a cleaning device includes, which are assigned to the area adjacent to the cuff behind the image transmission Position. 15. Device according to one of claims 7 to 13 »thereby characterized in that the fixing device comprises a heat source located in the vicinity of the movement path of the carrier is located at a location behind the position associated with the image transmission. 16. Device according to one of claims 7 to 15 _S as characterized in that the charging of the fixed toner image can be carried out in ambient light. 17. Device according to one of claims 7 to 16, characterized in that the device for image transmission includes a device for generating an electric field, by means of which an electric Bias between the cuff and the carrier to be printed can be produced, which is the unfixed secondary Toner is moved from the sleeve to the carrier. 18. The device according to claim 17 »characterized in that the device for generating an electrical Field an electrical voltage source as well as a felze which engages the cuff from that side of the wearer that is the surface in contact with the cuff of the carrier is opposite, and that the voltage source is electrically connected to the cuff and the pressure roller connected is. 19. Device according to one of claims 7 to 18 _S characterized in that a device for scanning the image density of the generated in a printing station 9882/0788 th partial pressure is provided, which is a control signal for influencing at least one of the transmission parameters this printing station generated, by means of which the image density is kept at a predetermined value. 909882/07 86