DE2918721C2 - Electrostatic recording device - Google Patents

Description

stretched black areas stripes or scratches in the direction of movement during development of the recording medium. However, these are undesirable as they are the developed image give a fuzzy appearance.

Because, after all, an effective recording medium step in the charging path between the Group of pen-shaped electrodes and the lips of the U-shaped counter-electrodes are provided parallel charging paths, which increase the impedance of the charging path, so that longer Writing times result. Longer write times (longer times for the charge to be deposited, which is essentially due to a higher RC time constant in the charging path), however, mean one slower writing process.

It is in principle possible to improve the printing speed by reducing this impedance in the charging path, while at the same time taking care of it becomes that the likelihood of pinhole shorts occurring through the recording medium remains the same; in addition, an effective alignment of the recording medium must be ensured, thus the recording medium through the recording station and the developing station more rapidly can be transported.

The US-PS 36 93 181 suggests reducing the impedance in the charging path and a relief address the alignment problem by creating a counter electrode assembly with a concave conductive Surface is provided over which an elastic, sponge-like layer lies In this conductive one Counter electrode occurs, however, the risk that the recording device, especially the pen-shaped Electrodes, can be damaged by the recording medium in the event of pinhole short circuits. A pinhole or A pinhole short circuit on the charging path burns or atomizes the electrode tips or more recording pens in the recording head, so that this recording head no longer can be used. In addition, the change in conductivity will continue to improve the print quality the more agile. Auizeichnup.gsmediums influenced.

It is therefore an object of the present invention to provide an electrostatic recording device of the one To create the aforementioned type in which short circuits are avoided through pin holes and any Fluctuations in the capacity of the recording medium are ineffective and result in a greater recording speed permitted.

Resistance layers are used to solve this problem formed shoes are provided, which towards the recording medium the surface of the counter-electrodes form and each electrically connected to the conductive layers of the counter-electrodes are.

The resistance of these shoes can be chosen to be high enough to accommodate the recording electrodes protect against pinhole short circuits through the dielectric layer of the recording medium while at the same time, a reduction in the impedance of the charging path is possible; this in turn can the RC time constant for the charge acceptance of the recording medium can be reduced.

In addition, with the present invention it is possible to use pure dielectrics as the recording medium to be used so that the previously customary combinations of materials do not have to be used, namely a dielectric layer on a fairly conductive substrate such as paper.

Advantageous further developments of the invention emerge from the subclaims.

The invention is illustrated below by means of exemplary embodiments with reference to the schematic Drawings explained in more detail. It shows

F i g. 1 is a perspective view of the relative positional relationships between the recording station and the developing station in an electrostatic recording device,

F i g. Fig. 2 is a side view of the recording and developing station of an electrostatic recording device; partly in section,

F i g. 3 is a perspective view of a counter electrode arrangement according to the invention and

F i g. 4 shows a cross-sectional view of a further embodiment of a counter electrode arrangement according to FIG of the present invention.

In the F i g. i and 2 are a recording station 10 and a development station 30 used in electrostatic recording devices as described in American patents 37 29! 23 and 40 42 939 are described.

As in Fig. 4 can be seen in the electrostatic sheet-like recording medium 11 around a dielectric material or a combination made of a paper substrate 26 and a dielectric Act layer 27.

The recording station 10 includes an electrostatic recording head assembly 12 and a counter electrode assembly 13, which are provided opposite each other. The recording head assembly 12 consists of several, pin-shaped electrodes 14, which are made in epoxy resin or another plastic material 15 are embedded, so that a group of electrodes is formed which are evenly spaced from one another to have; the electrodes have tips 16 which are a small distance from the top of the Recording head 12 can protrude. However, the tips 16 do not protrude so far that they the recording medium 11 actually touch.

The recording head 12 is supported in an outer metal shell 17 which is a convenient means for mounting the recording head assembly 12 to the frame of an electrostatic Represents recording device as described in the above-mentioned patents.

The counter electrode arrangement 13 in the recording station 11 has a flexible or elastic support element on; this can be a printed dashboard 18. Every counter electrode has a conductive layer 20 on which a resistor strip, Pad or shoe 22 is attached. Each resistance shoe 22 has its associated conductive one Layer 20 are electrically insulated from the adjacent counter-electrodes, as can be seen in particular in FIG. 5 can recognize.

The arrangement of the counter electrode segments 25 according to FIG. 3 is essentially the same as that in FIG. 2 cross-sectional shape shown with the exception that at the embodiment of Figure 2, the conductive layer 20 on the opposite side of the printed circuit board 18 with respect to the resistor shoe 22 is formed. In the embodiment according to FIG. 3 is the shoe 22, which is made of a material with a certain electrical resistance exists, directly on

of the conductive layer 20 is formed on the same side of the printed circuit board 18. The senior Layers 20 of each counter electrode are through a conductive wire or printed circuit line 21 with a suitable coupling element lit for the recording control connected, which supplies the pressure input pulses for selected electrode tips 16, which are opposite selected counter-electrode segments 25 are located; thereby, a charge can be deposited on the movable recording medium 11 or are applied.

In the case of the in FIG. 3, the resistance shoe 22 can be attached to the conductive layer 20 by means of an epoxy adhesive filled with a conductive material such as an epoxy resin filled with silver. In the case of the in FIG. 2 embodiment shown, the resistance shoes 22 electrically with the new layers 20 and suitably connected to the printed circuit board 18 by means of the conductive Layers 20 as well as on the printed circuit board 18 with the aid of conductive fasteners 23 be attached. As mentioned above, the conductive shoes 22 may be in the shape of a pillow or pad. Have pads or slider or shoe, as shown in FIGS. 2 and 3 is shown, as an alternative to this the shoes are also simply a strip of sheet-like, elastomeric material with electrical Oppose and act as long as this resistor material has a sufficient resistance in ohms per unit area or square yields If an elastomeric, sheet-like material with electrical resistance is used, so result for the in F i g. 1 arrangement shown suitable values when a sheet with a thickness of 0.127 mm and. a sheet or Surface resistance before. sixty (60) thousand ohms per square was used. Such a sheet-like material consists of a carbon or Graphite-spiked polyolefin film. The one shown in Fig.2 Resistance shoe structure would also have resistance values in the range of «. Sixty (60) thousand Have ohms per square. The essential point here is that the resistance value per unit area should be sufficient to prevent damage to the pen-shaped recording electrodes due to a prevent electrical shorting in the charging path; on the other hand the resistance should however have such a high value that there is an impedance in the charging tracks, which the writing times of the pen-shaped recording electrodes elevated. The shoe material must also have a high wear resistance, since the counter electrodes are in constant contact with the movable recording medium.

The printed circuit board 18 may be made of an epoxy glass laminate. The printed circuit board 18 with its resistance shoes 22 is so in the electrostatic recording device attached that the resistance shoes 22 directly opposite of the pen group of the electrostatic recording head 12 are located. The printed circuit board 18 is elastic and can be pretensioned by a spring in the manner of a cantilever or a bracket, see above that one acts against the recording medium 11 and the electrostatic recording head 12 Force results in the exact adjustment of the erection of the counter-electrode arrangement 12 with respect to the group 14 of pin electrodes of the recording head 12 is not required. The elasticity of the printed circuit board 18 and the design of the counter-electrodes lead to the fact that the alignment between the Recording head 12 and the counter electrode assembly 13 is neither problematic nor critical.

The conductive layers 20 can be fabricated on the printed circuit board 18 by the Pattern the conductive electrodes into one using conventional photolithographic techniques

ίο Laminate clad with copper is etched. the copper clad plate can be 0.508 mm thick. The overall dimensions of the structure of the electrode segments 22 may have a width of 15.748 mm and a gap of 0.7620 mm between the electrode segments be. Of course, the length of the electrode segments, in particular the length of the conductive layers 20, can be varied depending on the width of the printed shuttering panel! *.

In the following, reference is made to FIG. Referring to Fig. 4, a modified embodiment of the counter electrode 25 according to FIG. 2 shows. As can be seen from FIG. 4 results, the printed circuit board 18 is again with a conductive one Layer 20 provided, which is attached to a surface of the plate and by means of a conductor 21 with a Connection is connected The resistance shoe 22 is provided with a foam underlayer 24 and means an epoxy adhesive filled with a conductive material is attached to the conductive strip 20.

In this embodiment, the automatic pressure setting of the counter electrode arrangement is still more pronounced, since not only the spring loading of the printed circuit board 18 can be provided, as mentioned above, but also the foam underlayer applied to the stick group 14 24 can be deformed locally, so that an automatic adjustment of the dynamic pressure as well result in even contact over the entire length of the two electrode assemblies.

Since the shoes 22 have a sufficiently high resistance, the length of the charging path changes significantly compared with counter electrodes having a U-shape, whereby the effective impedance and the RC time constant are reduced; in this way, the writing time of the pen-shaped electrodes can in turn be reduced. For example, the impedance in the charging path of an electrode arrangement that uses U-shaped counter electrodes can be 20 megohms, resulting in a writing time of 250 microseconds to decrease.
At the same time, the electrical short circuits that can occur in the dielectric layer of the medium 11 and their harmful effect on the electrode tips 14 are avoided by providing a sufficient resistance level in the shoes 22. In addition, the conductivity requirements of the conductive paper substrate of the recording media currently used in such electrostatic recording devices can also be reduced somewhat in view of the fact that the resistance shoes 22 are now directly opposite the group 14 of pen-shaped electrodes, whereby there are a direct charging path via the medium 11 results. If the resistance shoes 22 have a sufficiently high resistance, both

the electrode tips 14 and the driver electrode for the pin-shaped electrodes 14 are protected against accidental pinhole or pinhole short circuits in the dielectric material in the recording medium 11.

By using a counter electrode assembly 13 according to the present invention, it becomes possible to use high resistance recording media use. Even electrostatic images can be generated on pure dielectric media. the.

For this purpose 2 sheets of drawings

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Claims (6)

1 2 In the case of the electrostatic patent claims that are most commonly used today: see recording devices with pen-shaped electrodes, a charge is placed on the recording device. 1. Electrostatic recording device for the medium by means of two coincident voltage pulses Creation of an electrostatic image applied to egg 5, which is attached to opposite sides of the nem recording medium, which is between a recording medium with the help of pen-shaped Group of counter electrodes and a recording electrode as well as back or counter electrodes approach head can be placed with a group of pin-shaped pads. Such an electrostatic recording electrode is arranged, the drawing facility is e.g. in the Philips Technigenüber the counter-electrodes are, with io see Rundschau 36, 1976/77, No. 4, pp. 98-112 more suitable Addressing the electrodes at an exercise. About the transition resistance between the muck stretches between pairs of electrode electrodes and the recording medium which is formed and where the counter-electrodes hold, it is already known to use the paper come into engagement with the recording medium to lead a certain pressure over the counter electrode and their conductive layers insulated from each other. are, characterized in that as Wi- The counter-electrode arrangement consists usually- Shoes (22) formed from the stand layers, preferably from a plurality of U-shaped shoes, which have a can be seen, the metal block with an elongated channel towards the recording medium (11) here- the surfaces of the counter electrodes (13) are constituted. Such counter electrode arrangements with and each with the conductive layers (20) of the 20 U-shaped shoes are z. B. in U.S. Patent 3,693,181 Counter electrodes (13) are electrically connected. described. 2. Electrostatic recording device The U-shaped counter electrode arrangement leads in according to claim 1, characterized in that the comparison with a flat, plate-shaped counter-counter-electrode (13) on an insulating, elastic electrode arrangement for reduced wear see carrier element are arranged. 25 of the pen-shaped electrodes and the head, and 3. The electrostatic recording device also protects the pen-shaped electrodes to a certain extent according to claim 1 or 2, characterized. Dimensions against a dielectric breakdown. that the resistance shoes (22) on the respective head wear was in this older arrangement conductive layers (20) are attached. reduced, because the spaced apart, each 4. Electiostatic recording device 30 but parallel lips of the U-shaped counterelectron according to at least one of the foregoing to minimal contact with the recording, characterized in that a foaming medium led so that the medium is freely layered (24) between each le ^: - »nden layer (20) and small physical fluctuations and the resistance shoes (22) are provided, so possible in the profile of the recording electrode head that a local deformability of the resistors was possible. The risk of a complete electric standing shoe (22) resulting in a breakdown was also relatively low because the effective wi- 5. Electrostatic recording device the state of the recording medium, which is in the Konnach Claim 2 or 3, characterized in that it clocks with the counter-electrode Lippw and the pin conveyor The conductive layers were located on one side of the insulated electrode, providing adequate protection The support element and the resistance shoes 40 against pinhole short circuits in the recording device (22) along the opposite side of the carrier medium, which was otherwise the pen-shaped electrodes and the element are arranged and that beelement in the carrier circuit arrangement of the recording device could damage an electrical connection (23). hen that each resistance shoe (22) with the respective conductive layer (20) connects. However, order had several disadvantages. First 6. Electrostatic recording device is very expensive to manufacture, since all the details are very according to at least one of claims 2 to 5, must be carefully prepared; this means all through characterized that each of the resistor so that the manufacturing cost was very high. Outside shoes (22) an electrical resistor on which is the alignment of the counterelectrode segments, thin elastomeric strip element wrapped around relative to electrode head during installation summarizes, which is attached to the carrier element (18) in the recording device very time consuming. is. The U-shaped counter electrode arrangement provides ei a recording medium step in the charging stretch between the recording electrodes whose 55 impedance value is variable. The print quality of this electrostatic recording device depends The invention relates to an electrostatic recorder but strongly dependent on the conductivity of the paper base or voltage device for generating an electrostatic of the substrate of the recording medium, which Image on a recording medium, which in turn, however, over the length of the medium as well see a group of counter electrodes and a 60 changing from roll to roll of the recording medium. Recording head with a group of pen-shaped such variations in conductivity are due to common recording electrodes is arranged, which may be based on the properties of the paper itself, are located opposite the counter-electrodes, but also for changes in the relative I Appropriate addressing of the electrodes, a charging moisture can be returned. Such swan ■ stretch between pairs of electrodes, however, the conductivity changes affect the charge and the counter-electrodes with the charging characteristic of the charging path between drawing medium come into engagement and their conductive counter-electrodes and the group of sttftförmiden Layers are isolated from each other. recording electrodes, so that solid or excellent