DE1273991B - Device for developing charge images - Google Patents

Description

Apparatus for developing charge images The invention relates to a device for developing charge images, preferably those on individual ones Sheet, by means of a wetting developer based on the principle of roller application.

The change in the adhesive tension is made during the development of wetting of the developer liquid on the surface to be developed by the state of charge a surface carrying a charge image.

Wetting developers are liquids that have such a composition possess that they do not have the material to be developed on its uncharged surfaces, however, wet the areas of electrostatic charge. Wetting developer are usually aqueous solutions of organic dyes, so they are in contrast to also liquid dispersion developers low-resistance liquids. Apart from that One strives from the selection of the developing solutions when applying the liquid to proceed to the charge image in such a way that rapid development, i.e. H. Wetting the charged image areas is effected without an excessively large excess of liquid is applied, which is also disturbing at the unloaded image areas could stick.

The development of charge patterns is of particular technical interest on individual sheets, the so-called format development. Format development is at silver photography, diazotype and also electrophotographic Development with dispersion developers is common practice.

The devices required for format development are included in the Usually transport rollers and application rollers for the developer fluid. Most of them known types of development, however, depends on the layer thickness of the developer liquid not a decisive role on the application roller. With the development of wetting, however For the reasons mentioned above, the layer thickness is very critical. For this reason cannot do the known developer devices that work with liquids can be readily used in electrophotographic wetting development.

Furthermore, the possibility of developing wetting should be given be, an electrical voltage up to a few during the development process apply a hundred volts. Applying tension can be used both in positive development to suppress the development of the background or to reinforce the image or for reversal development, in which the previously uncharged areas of the image are visible be made, may be required. The tension is during the development process between the developing liquid and the free rear side of the charge image to apply the supporting sheet. The electric field formed in this space must be very constant and especially when inserting a sheet through no noticeable traces of liquid on the front edge of the back be disturbed. In other words: there must be short circuits through the low-resistance Developer liquid can be avoided. Also for this reason is an over to avoid developing liquid.

Furthermore, the contact zone is between the wetting developer bearing roller and the electrophotographic material to keep narrow, since the electrostatic attraction alternating between charged and uncharged image areas between the wetting roller and the electrophotographic material otherwise the Uniformity of transport of the electrophotographic material disturbs and thus affects the image quality.

In addition, a device for wetting development that is especially suitable for format development, be such that although the Coloring of the entire area required amount of developer is available that but the low-viscosity developer liquid does not leave the device by itself runs away or from this.

According to the invention this is achieved by a device that is characterized is through a driven wetting roller provided with a liquid supply system, by two parallel to the roller axis compared to the radius of the wetting roller closely spaced lines Restraints from the roll surface have such a distance that a plane laid by both support lines the Roll surface preferably touches or cuts in two generators, as well as through a pair of push rollers arranged parallel to the roller axis; its line of contact smallest possible distance to that formed by the wetting roller and the supports Has gap, as well as a voltage source that can be regulated up to 800 volts, the poles of which are connected to the wetting roller on the one hand and the supports on the other hand.

The device according to the invention allows electrophotographic Developing material very quickly. Development speeds of about 20 cm / sec. still bring excellent results.

However, it is also possible to go beyond this speed or to stay below this, whereby in these cases also very good image quality can be obtained.

Furthermore, formats such as DIN A 5-DIN A 1 as well as continuous electrophotographic material formed on a Roll is wound up, are processed. In the latter case, pull rollers or other devices that the material to be developed after leaving the development zone Further convey, are dispensed with if the winding and unwinding devices are controlled are.

There is no breakdown of the current during the development process instead of. The device parts are also set up so that before and after developing. a. Switching off the current is not necessary because of the distances between the roller guiding the developer liquid and the linear formations or draining devices in each case in the absence of the electrophotographic to be developed Material a sufficiently large distance is available that a breakdown of the current prevented.

By application: the invention produces images with great edge sharpness, high contrast and extensive freedom. The development results can be always: constant for any number of images reproduce.

The pair of push rollers is usually arranged so that the electrophotographic Material first brought up to the surface of the roller in the direction of a tendon is what it is through the; Roll surface in the direction of said tangent is deflected: The linear supports are preferred as wedge-shaped strips executed, the edges of which are directed against the roller. 'The device is on Hand of schematisch6iZ drawings explained in more detail. _ The F i g. Figures 1 a and 1 b show preferred embodiments in side cut. ___ -A rotating roller 1 are in a known manner, two liquid application rollers running over the entire width 2 assigned, with the help of which a thin film is located in the tub 3 Developer liquid 4 can be brought onto the roller surface. By means of a Pusher roller pair 5 is the electrophotographic material in the direction of the arrow with the side carrying the latent image upwards (depending on the position of the drawing) brought up to the surface of the roller 1. The electrophotographic material so meets the roller surface with the front edge.

The direction 16 is that of a chord to the roller 1, namely must this chord in the running direction within the hatched semicircle of roller 1 which is formed by a straight line passing through the point of contact of the electrophotographic Material on the roll surface and the center of the roll goes. This direction is here by the mentioned pair of push rollers 5 and by the support surface 6 of the one or two linear boundaries bearing part described in more detail below in connection with the surface 1.4 of the dampening roller 13 mentioned below. A further guide element 7 can be used in front of the push rollers for support will.

The circumferential speed of the roller 1 is expediently chosen to be so large such as the advance speed of the sheet; since then neither the leading edge nor the Trailing edge of the sheet are flooded by the developer liquid.

The electrophotographic material is deflected at the roller surface in the direction of approximately a tangent 16a to the roller 1 and thus touches the liquid film on roller 1.

The deflection angle β between the chord and the tangent can be wide Boundaries fluctuate. Good results are obtained if this angle is from one Fraction of a degree up to about 45 °, preferably up to 20 °. By redirecting a certain pressure of the sheet against the roller is achieved, which also with a curl of the arc each surface element of the arc surface with the on the liquid film located on the roller comes into contact.

The further guidance of the electrophotographic material in the direction of the previous tangent 16a is, as shown in FIG. causes. This linear support has the effect that the electrophotographic material is not displaced from the direction of the tangent by the forces that occur, which are caused by the movement of the roller 1 or the material itself G. 1 a shows a further deflection in the direction of a = tangent, this deflection being initiated by a beveled impact surface 10 a. This ends in a linear support 10 running parallel to the roller axis over the entire width of the roller. This support 10 protrudes into the space that is delimited by the roller surface and the material running through the first point of contact with roller 1, that is, during the development process, the electrophotographic material touches the support surface 6 in sequence, the linear supports 6a and 10, whereupon the developed material, possibly supported by an outlet bevel 15, can be removed from the device.

In the devices just described, the bow is on the last Piece no longer transported when it has left the push rollers. It is therefore advantageous, the parts 8 and 8 a quite high to arrange so the arch on the last piece over an outlet slope 15, as mentioned above, can fall freely, or a conveyor belt in a known manner (in the figures of overlooked for the sake of not being drawn), which pulls out the arch.

As in Fig. 1 a shown, the electrophotographic material be deflected by the support 10 in the direction of a further tangent. In general, this should not be aimed at, but it can sometimes be useful namely when this results in the material to be developed, e.g. B. because of it more unusual Strength or stiffness properties, better contact with the wetting developer is conveyed. The angle a between the first tangent when deflecting through the roller surface and the second tangent should, however, be kept small, it can vary from a fraction of a degree to a few degrees. Beneficial However, development results can be achieved according to the invention if - with respect to the direction of the first deflection tangent - no further deflection takes place.

The incision between the wedge-shaped strips, as z. Am F i g. 1 a is identified by the reference number 11, is favorable for the case that smaller amounts of liquid accidentally get between the roller and said parts. The liquid is then either lifted off the rotating roller or flows over parts 8 and 8 a. So that this can go on without interference, it is advantageous that the parts mentioned are not located directly below the roller.

The in F i g. 1 a and 1 b exemplarily shown parts can be different Embodiments obtained if these only meet the conditions just given.

If reverse development is to be carried out with the device according to the invention, it must be ensured that a voltage can be applied between the developer liquid and the material carrying the charge image during the wetting, specifically as precisely as possible at the points where the wetting takes place . With the present device this is possible with very good success. As generally shown in FIG. 1 a shown, this push roller pair 5 and part 8, if z. B. the reverse wetting development of charge patterns on zinc oxide layers is provided, connected to the positive pole of a voltage source of about 400 volts, while the roller, and thus the liquid, the negative pole is placed. However, the voltage can also be increased to around 800 volts. The electrical contact with the two support lines 6 a and 10 is usually sufficient. -In the case of poorly conductive material, such as B. paper at low humidity, it is advantageous to support this contact by z. B. a very thin film of a conductive liquid such. B. water, is applied to the back of the material carrying the charge image. For this purpose, a moistening device 12 with the moistening roller 13 is provided on the surface 6 of the part 8. The dampening roller can for example consist of sponge rubber or some other liquid-absorbing material. The back of the electrophotographic material is drawn over the surface 14 before it comes into contact with the developer.

It is advantageous to make the angle between the tangent or tangents in the direction of which the paper touches the roller and the horizontal 45 ° or greater. The support points 10 or 10 b; which, by definition, lie on or within a tangent to the roller 1 are particularly advantageously arranged so that they each have the same distance from the point of contact of the electrophotographic material with the roller 1.

The distance between the support points is favorably approximately between 10 and 20 mm with a roller diameter of approximately 50 to 80 mm. in the In general, distances between 10 and 40% of the diameter of the roller 1 are preferred. However, larger or smaller distances also produce good results. The vertical Distance between the roller and the linear supports should be in the device, as just described, be between about 1 and 2 mm. The upper support point is as close as possible to the point of intersection between the tendon in which the leaf is on the roller hits, and the tangent in which it passes the roller, to use. This gives the sheet a smaller radius of curvature and lies on the upper one Edge better on what better contact - as explained below - brings with it.

The quality of the surface is also important for the device of the roller 1, the best results are obtained if the surface smoothness and the corrosion resistance are very high. Highly polished surfaces, for example made of metal or plastic, give the best results. However, one also brings Knurling of shallow depth still usable results. Is particularly suitable high-gloss chrome-plated brass. The diameter of the roller, as shown in FIG. 1 shown should advantageously be between 30 and 100 mm, preferably between 40 and 60 mm.

Another embodiment of the present device is shown in FIG. 2 shown. Here is part 8 of the apparatus according to FIG. 1 replaced by a trough-like part 18 ending in a linear support 18a and a support roller 17. The electrophotographic material to be developed is introduced into the apparatus by the inlet support, whereupon it is grasped by the draw roller 20 and simultaneously guided through the guide plate 19 into Direction of a chord to the roller 1 is brought to the surface of the roller 1 and deflected. The charge image to be developed now comes into contact with the liquid film on the roller surface, while the back of the electrophotographic material runs over the two support lines 18 a and 17 a and is fed to the outlet bevel 22.

If the electrophotographic material to be processed is only-in. Direction of a tangent is deflected, correspond to points 18 a and 17 a in F i g. 2 points 6 b and 10 b in FIG. 1 b. If the diversion in FIG. 2 takes place in the direction of two tangents, corresponds to the position of points 18a and 17a in relation to the roller 1 of the position of the points 10 and 6a in FIG. 1, where the Impact surface 10 a then through section 17 b of roller 17 in FIG. 2 shown will. Advantageously, the support roller 17 also acts as Transport roller, so that a very good passage through the electrophotographic Material is guaranteed. In addition, the back of the to be developed can also be used Material are moistened, since the pulling roller 20 is in a liquid reservoir 21 can immerse.

Particularly preferred results are achieved if the platen 17 has a diameter such that the linear supports 18 a and 17 a have approximately the same distances from one another and from the roller surface as they were above at the etatresponding points 6 a and 10 or 6 b and 10 b in, F i g. 1 a and 1 b. Roller 17, like rollers 20 and 1, is driven by a motor.

F i g. Figure 3 illustrates another embodiment of the present invention which has given good results. Roller 1, application rollers Z and the ink tray 3 are basically the same as above. The electrophotographic material is shown in FIG. 3 introduced via the support piece 23, detected by the motor-driven support roller 25 and under the guide. Sheet 24 brought over to the roller surface, where it is deflected and is transported on over the two linear supports 25a and 26a, which belong to the support rollers 25 and 26. The charge image comes into contact with the wetting developer on the surface of the roller 1 in a manner analogous to that above.

The roller 26 is preferably also driven by a motor, so that the electrophotographic can be pulled through properly. Material is guaranteed. Here, too, very good results are achieved if the linear supports 25 a and 26 a are spaced apart from each other and from the liquid-carrying roller surface like the corresponding supports in FIG. 1 a and 1 b. Part 27 with moistening device 28 also supports the conductivity of the electrophotographic material here by moistening the rear side.

Even with the two last-mentioned devices according to FIG. 2 and 3 can in a manner analogous to that in the device F i g. 1 a voltage, e.g. B. to about 800 volts, applied between roller 1 and parts 18, 17 and 25 and 26 will. It does not occur either before, during or after the development process Short-circuit or flashover of the current, so that reversal developments, e.g. B. how they are described in U.S. Patent 2,956,487, workable with good success are. It is advantageously noticeable here that the contacting is on in each case the places on the back where the developer has just hit the surface of the electrophotographic material wetted.

F i g. 4 shows a further embodiment of the present device. The surface of the roller 1 carrying the wetting developer film becomes the charge image supporting side = of an electrophotographic material over the support 30 the thrust rollers 29 and the guide plate 31 are fed in the direction of the chord defined above. The material is now deflected and hits the impact surface 33. From there it is then conveyed to the outlet surface 32 via the point 32 a i. The electrophotographic Here, too, material can be deflected in two tangent directions. Also in this one Device can be a tension between the roller 1. and the parts 31 and 32 create.

In Fig. 5 shows a modification of the device according to the invention which is preferred for some purposes, especially for somewhat thicker electrophotographic papers. On a base 42, the electrophotographic material to be developed is fed in the direction of the arrow with the side carrying the charge image up to the push roller 39; this conveys it via a moistening device 41 with a pressure spring 40 to the surface of the roller 34 carrying the wetting developer film pushed to the outlet. Here, too, the material lies against the roller 34 in the direction of one or two tangents. As a result of this slight pressure, the above-mentioned roller 34 - made possible by the displaceable bearing 35 - is raised somewhat.

The developer film is shown in the example in FIG. 5 not by transfer rollers as plotted in Fig. 1 to 4, but by a different application system, consisting from a Abstreifprofi138, which doubles as a container 36 in which the wetting developer 37 is located, is formed. When not in use, the roller closes through its own weight the vessel 36 from; the roller is then practical on its lower side dry. If a sheet is passed under the roller, it will, as mentioned, raised a little; at the point 37 b developer can flow out, which then is taken along by the rotating roller, so that a film is on the roller trains. Liquid not carried along by the sheet will be due to the circulation of the The roller is returned to the storage container.

Claims (10)

Claims: 1. Device for developing charge images, preferably those on individual sheets, using a wetting developer the principle of roller application; g e k e n n n z e i c h -n e t d u r c h one with a Driven wetting roller provided with liquid supply system, by two parallel to the roller axis, compared to the radius of the wetting roller close together linear supports, which are at such a distance from the roller surface, that a plane laid through both support lines favors the roller surface tangent to or intersects in two generators, as well as through one parallel to the roll axis arranged push roller pair, whose line of contact is the smallest possible distance the gap formed by the wetting roller and the pads, and by a voltage source that can be regulated up to 800 volts, whose poles are connected to the wetting roller on the one hand and the conditions on the other. 2. Device according to claim 1, characterized in that at least one of the linear supports through the edge of a wedge-shaped strip directed towards the roller is formed. 3. Device according to Claim 2, characterized in that the other of the linear Supports by a rotatably mounted roller, forms whose smallest distance from the wetting roller equal to that of the one otherwise located there Edge is. 4. Apparatus according to claim 1, characterized in that the linear Supports are formed by two rotatably mounted rollers, the smallest distances between them of the wetting roller are the same as those of the edges otherwise located there. 5. Device according to Claims 1 to 4, characterized in that in front of the point of contact of the electrophotographic material with the developer liquid is arranged to moisten the back of the material. 6. Device according to claims 1 to 5, characterized in that the diameter of the wetting roller is between 30 and 100 mm. 7. Device according to claims 1 to 6, characterized marked that the distance between the linear supports between 10 # and is 40% of the diameter of the wetting roller. B. Device according to the claims 1 to 7, characterized in that the distance between the linear supports and the surface of the wetting roller is 1 to 2 mm. 9. Device according to the Claims 1 to 8, characterized in that the surface of the wetting roller made of metal with a very smooth surface. 10. Device according to claims 1 to 8, characterized in that the liquid supply system consists of at least one which can be closed by the weight of a roller feeding the liquid thin outflow opening. Publications considered: German patent specification No. 601135; British Patent No. 372 508.