NL8105674A - METHOD FOR APPLYING A PROTECTIVE LIGHT-TRANSPARENT COATING TO A TONER IMAGE CONTAINED ON A SUBSTRATE - Google Patents

Abstract

Method for forming a protective transparent coating on a toner image formed electrophotographically by depositing a transparant protective toner electrophotographically and in registration on said toner image, using the same original.

Description

i * * 815112 / Timmers

Short designation: Method for applying a protective translucent coating to a toner image formed on a substrate.

The invention relates to a method for applying a protective light-transmissive coating to a toner image formed on a substrate, which is obtained by charging a photoconductive substrate, image-wise discharging by exposure and developing using pigmented toner and then transferring the obtained toner image to a receiver substrate.

Imaging by electrophotographic techniques using one or more on a substrate, e.g. a sheet of paper, adhesive pigmented toner is now well known. Compared to the known printing techniques, which use a black or colored ink, this electrophotographic technique has many advantages, but the drawback is that different types of toner, which for certain reasons must nevertheless be used, adhere less to the receiving surface than the usual ink. For this reason, it has already been decided after forming an image 20 with such toner to cover the entire substrate with a thin layer of a suitable protective substance which is, for example, polymerizable or dissolved in an evaporating solvent.

However, this method, which covers the entire surface of the substrate, including the non-toner-carrying parts, has the disadvantage that the substrate has a surface texture which is different from that normally obtained in printing: the surface presents itself the observer unnatural. Especially when using electrophotographic techniques to form a proof, this is a major drawback.

The invention provides a solution to this problem. According to the invention, a second toner image 8105674, ff -2- of the same original is formed on the photoconductive substrate with a protective translucent toner, this second toner image is reported with the first image on the receiver substrate and then fixed.

With the method according to the invention, protective toner is thus applied only to the substrate where pigmented toner is present, so that the non-imaged surface parts of the substrate retain their original surface texture. The image eventually obtained, protected with a layer of protective toner 10, therefore appears to be much more 'natural'.

The invention can be applied in particular where the known electrophotographic techniques produce a proof of a color print, using a number of color separations obtained from an original. In addition, the step of applying the protective toner can be carried out as many times as there are color separations, each time using a different color separation, but it is also possible to form the second protective toner image from an exposure of the photoconductive coating via all color separations used in imaging and reported for this purpose.

The invention is elucidated on the basis of the drawing, which shows the various steps leading to the obtaining of the final protective coating.

FIG. 1a schematically shows a substrate 1 which is image-wise covered with toner of different color; toner of the first color is indicated with the fully filled drawn toner parts 2 and toner of the second color with the hatched drawn toner parts 3. These toner images are obtained in the usual manner, starting from the translucent color separations 4 and 4, respectively. 5? the toner image 2 was obtained after exposure via the color separation 4 and then developed with toner 2 and the toner image 3 after exposure via the color separation 5 and developed with toner 3. Naturally, there are also places where toner images of the two different colors overlap and places where no toner is present at all.

\ 8105674 φ * -3-

According to the invention, the image obtained in this way is covered only with transparent, non-pigmented protective toner where pigmented toner is present. This can be done in two different ways:

Fig. 1b shows how on a suitable photoconductive coating 6 a toner image is formed from the desired protective toner 7 using the first color separation 4 and this toner image is accurately applied to the image to be protected in report 10. Fig. lc shows the result obtained.

Where there is only toner 3 of the second color, no protective toner is applied.

These places are covered in the next step: an image is again formed from protective toner 8, this time using the second color separation 5 (see Fig. 1d) • and the image obtained in this way is again accurately reported on it, substrate already partially covered with protective toner. The situation that then arises is shown schematically: in Fig. Ie. All pigmented toner is now covered with protective toner, the latter of which fuses to the surface of the substrate by heating.

Fig. If it is clarified that it is also possible to apply the protective toner in a single operation.

A toner image 9 is thereby formed using all the color separations 4, 5 used in the formation of the respective sub-images, which have been superimposed in report and through which the photoconductive coating 10 to be used is exposed; the toner image obtained according to Fig. If obtained after exposure and development with protective toner is then applied in report on the image to be protected 2, 3; Fig. 1g shows the final result obtained.

- Conclusions - 8105674

Claims (4)

1. A method of applying a protective light transmissive coating to a toner image formed on a substrate obtained by charging a photoconductive substrate, image-wise discharging by exposure and developing using pigmented toner and then transferring the obtained toner image to a receiver substrate, characterized in that a second toner image of the same original is formed on the photoconductive substrate with a protective translucent toner and this second toner image is reported in report with the first image on the receiver substrate and then fixed . 2. A method according to claim 1, applied in the case where the image transferred to the substrate is obtained from a number of color separations by means of which a number of reported toner images of different color are successively formed, characterized in that repeat the cycle of applying a protective translucent coating as many as 20 times as there are color separations, and each time with a different color separation. 3. Method according to claim 1, applied in the case where the image transferred to the substrate is obtained from a number of color separations with the aid of which a number of reported toner images of different color are successively formed, characterized in that the second, protective toner image forms from exposure of the photoconductive coating through all the color separations used and reported for that purpose in the previous 30 steps. 4. Method according to claims 1 to 3, characterized in that the protective toner layer is colorless. 8105674