DE10124588A1 - Image carrier for a toner type printer has a large number of pixel elements in a matrix pattern covering more than 50 percent of the image carrier surface to give improved print quality - Google Patents

Abstract

Image carrier has a matrix of image elements (5/1- 5/4). An image pattern is plotted on the image carrier surface by application of electrostatic charges according to the desired pattern required. The image elements are made of electrically conducting material and are isolated from each other. The surface area of the image elements as a percentage of the whole image carrier area is between 50 and 98 percent. The optimum percentage area is between 60 and 90 percent.

Description

The invention relates to an image carrier, in particular an image cylinder, with one in one.

Recording surface having matrix elements arranged in accordance with Preamble of claim 1.

Image carriers of the type mentioned here are known from EP 0 786 705 A1. On the for example, image carriers formed by an image cylinder are made with the aid of a Number of flexible electrographic electroconductive contact elements Write head electrostatic charges on a dielectric recording surface of the image cylinder applied to an electrostatic pattern with charged and to form uncharged areas that correspond to an electronic image. To do this the individually controllable contact elements in contact with the recording surface brought, which has arranged in a matrix, electrically conductive picture elements and can usually be shifted relative to the contact elements. The generated The charge pattern is then replaced by a printing ink, for example dry toner, made visible, with the printing ink on the charged areas of the Recording surface attaches. The image made visible by the printing ink becomes then from the image carrier to a printing substrate, such as a sheet of paper, transfer.

The image quality that can be achieved with the image cylinder is significantly better than with one electrophotographic recording process, however, the image quality is in some Cases not sufficient.

It is therefore an object of the invention to provide an image carrier of the type mentioned create in which a high image quality can be ensured.  

To solve the problem, an image carrier with the features of claim 1 proposed, which is characterized in that the proportion of the area from a electrically conductive material existing picture elements on the recording surface the image carrier in a range from 50% to 98%, preferably from 60% to 90%, lies. The area coverage of the picture elements (pixels) is therefore very high, which means a high level Image quality when printing can be ensured. The improved picture quality will in particular through the very good control of the contact elements on the Image elements applied electrostatic charges reached. Parts of the surface of the image cylinder, which are covered with a conductive layer, can be very accurate be checked while this is not the case for parts covered only with an insulating surface the case is. It is also advantageous that due to the large and / or close to each other arranged picture elements the contact security of the recording surface contacting contact elements of an electrographic write head is improved.

An exemplary embodiment of the image carrier is preferred in which the entire recording surface is divided into imaginary standard fields, that is to say area areas of equal size, in each of which a picture element is arranged, the area of a standard field being approximately 2500 μm ² . In an advantageous embodiment variant it is provided that all standard fields and preferably the respective picture element arranged therein are of the same size.

In a preferred embodiment of the image carrier, it is provided that the image element - seen in plan view of the recording surface - is square and has an edge length that is in the range from 40 μm to 49.5 μm, preferably from 42 μm to 47 μm. As a result, with a size of the standard field of 2500 µm ^2, an area fraction of the picture elements on the entire recording surface of the image carrier is possible from 64% to 98%. If, for example, the edge length of the picture elements is in each case 47 μm, the standard field having a size of 50 μm × 50 μm, a distance between the picture elements of, for example, 3 μm can be realized.

The size of the picture elements will vary depending on the breakdown voltage adjacent picture elements and manufacturing tolerances in terms of size of the picture elements and the distance between the picture elements. From the Literature "R. M. Schaffert", electrophotography, 1975 it is known that the electrical flashover between surfaces with different heights electrical potentials a function of the distance between the picture elements and the Potential difference is. This allows the Breakdown voltage as a function of the gap between two neighboring ones Image elements are created in which, according to the invention, the manufacturing tolerances of the Image elements and the image carrier are considered to the smallest possible gap to determine between adjacent picture elements. It has been shown that in one Voltage of 250 V a gap between the picture elements of about 3 µm is required a gap width of 1.5 µm can be realized at a voltage of 40 V, without causing a charge balance between neighboring picture elements comes.

An exemplary embodiment of the image carrier is also preferred which is characterized by this distinguishes that the space between two adjacent Picture elements has a width which is in a range from 1 µm to 10 µm and is preferably less than 5 microns. The gap between the picture elements becomes - like said - depending on the maximum electrical charge of the recording surface or a picture element or individual picture elements taking into account the manufacturing tolerances of the picture elements and the picture carrier selected.

In order to ensure the highest possible breakdown voltage, the invention provided that the edges and / or corners of the picture elements, at least of which some at least partially over the outer surface of the image cylinder may protrude, be flattened, broken or rounded. How strong or how weakly the edges and corners of the picture elements are rounded, is preferably in Depending on a desired breakdown voltage selected.  

The shape of the picture elements that complete either the recording surface are integrated so that an overall smooth recording surface results, or the Partially protruding outside of the image carrier, for example circular, rectangular, polygonal, in particular hexagonal or octagonal, formed be, with angular shapes for a particularly high area coverage of the picture elements in With respect to the entire recording surface are preferred because at least certain shapes have a constant width of the gap between adjacent arranged picture elements can be realized. Of course, the picture elements also have other shapes, for example that of an ellipse.

The object of the invention also relates to an image carrier in which the for Standard field provided picture element transverse to the direction of movement of the Recording surface is divided into at least two sub-picture elements. The Sub-picture elements are electrically isolated from each other so that they are unequal electric charges are rechargeable. This allows the image resolution in Direction of movement of the recording surface can be increased. In the Direction of movement of the recording surface seen - gap between the Sub-picture elements is at least so large that an electrical flashover and thus equalization of the electrical potentials of the sub-picture elements can be reliably prevented can. The division of the picture element arranged in the standard field into two, three, four or more sub-picture elements requires high precision in the control of the Contact elements of the used when recording the electrostatic pattern electrographic write head, since the contacting time of the individual partial picture elements constant displacement speed of the recording surface, that is to say Transfer of the electrical charges available time is correspondingly short is.

An exemplary embodiment of the image carrier is also preferred which is characterized by this distinguishes that the contact surface of at least some picture elements in their middle region has at least one edge. This measure will electric field forming around an electrically charged picture element  equalized, whereby a uniform accumulation of preferably one powder or liquid toner formed printing ink on the picture element can be guaranteed, which improves the print quality. In this context is understood by a "uniform electric field" that the strength of this Field is preferably substantially the same at all locations of the picture element or at least the peak values of the field strength are smaller, preferably significantly smaller, than with a picture element with a smooth contact surface.

According to a first embodiment variant, it is provided that the edge of the edge of a hole is preferably formed in the center of the picture element. This hole can during the same manufacturing process in which the Picture elements are manufactured and / or a picture element is divided into two partial picture elements becomes. The hole in the picture element is so deep that the electrically conductive layer from which the Picture element consists or from which the picture element is worked out, is completely removed.

In another embodiment, the edge is from at least one edge formed at least one slot that separates the picture element into two parts or only cuts into the contact surface of the image element, but not completely severed.

Further advantageous embodiments result from the remaining subclaims.

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

Figure 1 shows a detail of an embodiment of a recording surface of an image carrier in a perspective view.

Fig. 2 is a plan view of another embodiment of the recording surface in plan view;

Fig. 3 is a plan view of an embodiment of a picture element and

Fig. 4 is a diagram showing the electric field of an electrically charged picture element across its width.

Fig. 1 shows a section shows a perspective view of an image carrier 1, derirn- conjunction with a device for generating an electrostatic pattern corresponding to a recorded electronic image on a recording surface 3 of an image carrier, such as an image cylinder, can be used. Such a recording device can be seen, for example, from EP 0 713 155 A2, the content of which, in particular regarding the structure of the recording device and the sequence of the recording method, is made the subject of this description.

The recording surface 3 has a number here in a purely exemplary rectangular matrix picture elements arranged, of which in Fig. 1, only the picture elements 5/1, 5/2, 5/3 and 5/4 are recognizable. The image elements 5 consisting of an electrically conductive material are embedded in a layer 7 consisting of a dielectric material, such as ceramic, so that overall a very smooth recording surface 3 results. Under the layer 7 there is a further layer consisting of an electrically conductive material, with which the picture elements 5 each form a capacitor. The picture elements 5 are thus electrically insulated from one another and can be charged with different electrical potentials.

The recording surface 3 is divided into imaginary standard fields 11 , shown in FIG. 1 with broken lines 9 , within each of which one of the picture elements 5 is arranged. In this exemplary embodiment, the standard fields 11 are all of the same size and — as seen in plan view of the recording surface 3 — are square. The pixels 5/1 to 5/4 are also square-shaped, wherein the edge length a is only slightly smaller than the edge lengths of the standard fields 11, so that between two adjacent contact elements 5 each have a narrow gap 13 arises, which here has a constant width having.

In a preferred exemplary embodiment, the area of a standard field 11 is 2500 μm ² , the area proportion of the picture element 5 arranged in the respective standard field 11 in the total area of the standard field 11 being in a range from 50% to 98%. This area ratio is preferably the same size as the area proportion of all picture elements 5 on the entire recording surface 3 . Due to the high area coverage of the picture elements 5 , a high picture quality can be realized, since the electrical charges to be applied to the picture elements can be exactly adjusted and controlled. In contrast, it is not possible or only more difficult to control the electrical charges in the dielectric areas of the recording surface (such as, for example, with a known corona unit), but this hardly influences the image quality, since according to the invention the dielectric areas have only a very small proportion of the total area make up the recording surface.

FIG. 2 shows a section of a further exemplary embodiment of the image carrier 1 in a top view of the recording surface 3 . The image carrier 1 shown in Fig. 2 differs from that shown in Fig. 1 picture carrier in particular in that he / 1 to 5/4 has a plurality of picture elements 5 perpendicular to the moving direction 15 (arrow) of the recording surface 3 during a recording operation in each case two subpixels 5/1 A and 5 / 1B, 5/2 A and 5/2 B, 5/3 A and 5/3 B and 5 / 4A and 5 / 4B are divided. The gap 13 between adjacent partial picture elements is at least essentially the same size here.

Fig. 3 shows a plan view of another embodiment of an image element 5 has a square shape and is incorporated in its central region, a slot 17 which can be parallel to the moving direction of the recording surface. The distance of the slot 17 or from its longitudinal edge edges 19 , 20 to the side edges 21 , 23 of the picture element 5 are the same size here. The function of the longitudinal edge edges 19 , 20 is discussed in more detail below with reference to FIG. 4.

FIG. 4 shows a diagram in which the width X of a picture element is plotted on the abscissa axis and the electrical field strength E _N (normal component) of the electrical field of the electrically charged picture element is plotted on the ordinate axis.

In the diagram, the solid field 25 shows the electric field which occurs after the application of electric charge to a picture element with edge length a, the contact surface of which has no edges or the like but is smooth but is smooth. Such a picture element is shown for example in FIGS. 1 and 2. From Fig. 4, is readily seen that the electric field in the region of the side edges 21 and 23 of the picture element in each case has a particularly high field strength, while at the center of the picture element, the field strength of the electric field is significantly less.

In FIG. 4, the dashed line 27 shows the electric field which is produced by the application of a certain electrical potential to the picture element 5 shown in FIG. 3. It can be seen that the field has a maximum or is increased both in the region of the side edges 21 , 23 of the picture element 5 and in the region of the longitudinal edge edges 19 , 20 of the slot 17 , the maximum field strength being significantly less than that of one picture element having a smooth surface (compare characteristic curves 25 , 27 ).

It should be noted that 17 is a very uniform electric field is formed on or around the image element 5 through the (Längsrand-) edge-forming slot in the bonding pad of the imaging element 5, so that a uniform layer thickness of the depositing is at picture element 5 Toner particles be ensured can, since the amounts of the toner deposited on the picture element 5 increase monotonically with the field strengths in these partial areas.

In one embodiment variant, not shown, several slots, grooves or the like are introduced into the picture element, which form edges which serve to even out the electrical field forming around the picture element 5 .

Furthermore, in a further embodiment, not shown, it is provided that the at least one, the equalization of the electric field on the picture element serving edge from the edge of a hole, preferably in the middle of the Contact surface is arranged, is formed.

As a printing ink in connection with the invention Recording device is used, for example, liquid toner or Dry toner can be used. Regarding the composition, the properties and the transfer variants and forms of those used for the recording device, printing ink preferably formed by a liquid or dry toner is under on the reference "Electrophotography and Development Physics" by L. B. Schein, Springer Verlag 1992, ISBN 3-540-55858-6 The subject of this description is made.

The patent claims submitted with the application are proposed without Prejudice of further patent protection. The applicant reserves the right to previously only disclosed in the description and / or the drawings Feature combinations to claim.

References used in the subclaims point to the further training of the Subject of the main claim by the features of the respective sub-claim back; they are not a waiver of achieving an independent, objective To understand protection for the combinations of features of the related subclaims.

Since the subjects of the subclaims with regard to the prior art on The applicant reserves the right to form its own and independent inventions on the priority date intends to make them the subject of independent claims or declarations of division  do. They can also contain independent inventions, one of which Objects of the preceding subclaims have an independent design.

The exemplary embodiments are not to be understood as a restriction of the invention. Rather, there are numerous changes and changes within the scope of the present disclosure Modifications possible, especially such variants, elements and combinations and / or materials, for example, by combining or modifying individual, in conjunction with those in the general description and Embodiments and the claims described and in the drawings Features or elements or process steps contained for the Specialist in terms of solving the problem can be removed and by Combinable features for a new object or for new process steps or process step sequences, also insofar as they are manufacturing, testing and Concern working procedures.

Claims (9)

1. Image carrier, in particular image cylinder, with a recording surface arranged in a matrix and having a recording surface onto which an electrostatic pattern corresponding to an electronic image can be applied, the image elements consisting of an electrically conductive material being electrically insulated from one another, characterized in that the area portion of the image elements (5/1 5/2, 5/3, 5/4) on the recording surface (3) in a range of 50% to 98%, particularly 60%, is 90%. 2. Image carrier according to claim 1, characterized in that only one picture element (5/1; 5/2; 5/3, 5/4) exhibiting standard field (11) the recording surface (3) has an area of about 2,500 microns ² has , 3. Image carrier according to claim 2, characterized in that the image element (5/1; 5/2; 5/3, 5/4) - seen in plan view onto the recording surface (3) - is square and has an edge length (a) has, which is in the range of 40 microns to 49.5 microns, in particular from 42 microns to 47 microns. 4. Image carrier according to claim 1, characterized in that the picture elements (5/1 5/2, 5/3 5/4) - seen in plan view onto the recording surface (3) - formed circular, rectangular, hexagonal or octagonal shaped are. 5. Image carrier according to one of the preceding claims, characterized, that the edges and / or corners of the picture elements are flattened, broken or are rounded. 6. Image carrier according to one of the preceding claims, characterized in that the space (gap ( 13 )) between two adjacent picture elements has a width which is in a range from 1 µm to 10 µm and is preferably less than 5 µm. 7. Image carrier according to one of the preceding claims, characterized in that the for a standard field (11) picture element (5/1; 5/2; 5/3, 5/4) transversely to the direction of movement (15) of the recording surface (3) in at least two image elements (5/1 A, 5/1 B, 5/2 A, 5/2 B, 5/3 A, 5/3 B, 5/4 A, 5/4 B) is divided. 8. Image carrier according to one of the preceding claims, characterized in that the contact surface of at least some image elements ( 5 ), preferably of all image elements, has at least one edge ( 25 , 27 ) in its central region. 9. Image carrier according to claim 8, characterized, that the edge of the edge of a hole or at least one edge of a Slot is formed.