DE3535025A1 - Nonmechanical printing or copying device having a developer station, in which liquid droplets are used to ink the charge image - Google Patents

Abstract

In order in a nonmechanical printing or copying apparatus to ink a recording carrier bearing a latent charge image, a fog consisting of individual electrically charged writing liquid droplets is produced in the developer station. With its side bearing the charge image, the recording carrier is exposed to the fog of writing liquid in accordance with the desired degree of inking.

Description

The invention relates to a method and a device according to the preambles of claims 1 or 2.

Non-mechanical pressure equipment based on the principle of Electrophotography are well known and work successfully applied.

This is generally done using a laser or with a light emitting diode arrangement (DE-OS 34 22 907) on one Photoconductor drum generates an electrical charge image, then by applying toner in a developer station developed and in a subsequent transfer station is transferred to a tape-shaped recording medium. That is loose on the record carrier existing, consisting of toner is with Using a fuser (DE-OS 27 17 260) or with the help of fixative vapor (DE-PS 30 48 477) fixed. The tape-shaped recording medium is then deposited on an automatic paper stacker. As Toner it is common to use a two component toner that of the actual ones that form the color Toner particles and ferromagnetic carrier particles consists.

One problem is the even application of the Toner powder on the charge carrier. By acting  The toner powder also tends to be electrostatic in the area of the carrier particles for clumping and for crusting. This means that the entire facility is subject to high wear.

The object of the invention is a method and an apparatus for a developer station of the aforementioned Art to design so that in simple and wear-free Way a latent charge image on a Recording medium can be colored.

This object is achieved with a method and a device of the type mentioned at the beginning in accordance with the characteristic Part of claims 1 and 2 solved.

Advantageous embodiments of the invention are in the Subclaims marked.

This makes it one in the developer station electrically charged drops of existing liquid Fog is generated and the recording media with its side bearing the charge pattern corresponding to the desired degree of inking the writing fluid mist the developer station can be easily exposed to it one after the electrophotographic Principle working printing or copying machine operated will.

An ink is advantageously used here, which correspond to the known inks in ink printing devices is hygroscopic and therefore not in the air dries up. The ink is in the transfer station of the continuous paper tape designed to be absorbent recorded and can not be on the photoconductor drum fix. So z. B. about a  Fleece tape for easy cleaning of the photoconductor drum possible after the transfer station.

A subsequent fixation of the printed paper is not necessary anymore.

It is possible to generate the ink mist in the developer station a piezo-electric atomizer, how he z. B. use in inhalation devices takes place. Because there is such a writing fluid can be easily colored, the invention is particularly favorable for color printing.

An embodiment of the invention is in the drawings is shown and is described in more detail below, for example described. Show it

Fig. 1 is a schematic diagram of a laser printer with a developer station in which the charge image on the photoconductor drum is colored with liquid droplets and

Fig. 2 is a schematic representation of the developer station with liquid droplets.

In the printing or copying device shown in FIG. 1, which works according to the principle of electrophotography, a charge is applied to the surface of a photoconductor tube PH via a charging device LE , on which a laser beam LS controlled by a computer or with which is then used Light from a form pre-printing station FVS with slide roller D generates a latent charge image. Subsequently, the individual latent charge images are colored in a developer station ES in a manner to be described in more detail later by liquid drops in a writing liquid Sch . The toner image generated on the photoconductor drum leaves the developer station ES and is transferred in a transfer printing station US to normal paper P , which is guided tangentially past the surface of the photoconductor drum by means of a paper transport unit PTE . The transfer printing station US has a device which is not described in any more detail here and which makes it possible to pivot the paper onto and off the photoconductor drum. The paper is then drawn from pulling rollers ZGR into a paper stacking device PS . After the toner image has been printed on the paper, the remaining liquid is stripped from the surface of the photoconductor drum via a wiping edge AK made of soft material and in turn fed to the developer station ES via a corresponding feed line ZL . For fine cleaning, the wiping edge AK is followed by a fleece cleaning station VL, in which any residual writing fluid that may be present is removed from the photoconductor drum surface by means of a soft textile fleece that grazes over the photoconductor drum surface.

According to FIG. 3, the developer station ES consists of an actual developer container EB for holding a writing fluid SCH , the writing fluid having a composition such as that of e.g. B. is described in DE-PS 27 55 773. The writing fluid consists of a hygroscopic mixture of solvents.

In the development container EB there is an atomizer arrangement ZS, shown here only schematically, consisting of a piezoelectrically operated atomizer, which atomizes the ink located in the development container EB and thus generates a liquid mist N from individual electrically charged liquid droplets. The droplets are charged via a DC voltage source GS with the correct polarity such that the writing fluid mist is deposited in the area of the charge pattern of the photoconductor drum PH .

The ink supply system for the developer station ES consists of a storage tank, not shown here, from which the writing fluid is supplied to the development container in a controlled manner via a valve V via a corresponding pump device. At the same time, there is a liquid sensor S in the development container EG which senses the liquid level in the development container EB and which is linked to a control device ST . The control device ST , which is designed in the usual way, regulates the liquid level in the developer station as a function of a fill level signal emitted by the sensor S. The actuating device ST is connected to the central printer control device in a manner shown only schematically here.

Claims (8)

1. Method for coloring a recording medium ( PH ) carrying a latent charge image in a non-mechanical printing or copying machine, characterized by the following method steps:
a) a mist ( N ) consisting of individual electrically charged writing fluid droplets is generated in a developer station ( ES ),
b) the recording medium ( PH ) with its side carrying the charge image is exposed to the writing liquid mist ( N ) in accordance with the desired degree of coloring. 2. The method according to claim 1, characterized in that the record carrier ( PH ) is moved continuously by the developer station ( ES ). 3. Non-mechanical printing or copying device, in which a latent charge image is generated on a charge carrier ( PH ) by means of an optical device ( LS ), with a developer station ( ES ) for coloring the charge image and a transfer printing station ( US ) for transferring the colored charge images on a recording medium ( P ), characterized in that the developer station ( ES ) has an atomizing device ( ZS ) with which a writing liquid ( SCH ) supplied to the developer station ( ES ) is atomized and a mist ( N ) is generated from electrically charged individual droplets, and that the recording medium ( PH ) is guided through the developer station ( ES ) in such a way that the mist ( N ) is deposited in the area of the charge images in accordance with the desired degree of coloring. 4. Non-mechanical printing or copying device according to claim 3, characterized in that the atomizing device ( ZS ) has a piezo-electric vibrating element. 5. Non-mechanical printing or copying device according to one of claims 3 or 4, characterized in that the recording medium is designed as a photoconductor drum ( PH ). 6. Device according to one of claims 3 to 5, characterized in that the optical device an optical character generator has a variety of individually excitable Light elements to create a single point composite image contains. 7. Non-mechanical printing or copying device according to one of claims 3 to 5, characterized in that the optical device contains a laser ( LS ) which can be modulated in accordance with the characters to be displayed. 8. Non-mechanical printing or copying device after one of claims 3 to 7, characterized in that the Ink is hygroscopic.