DE1436656B2 - PROCESS FOR GENERATING VISIBLY REMAINING CHARACTERS FROM RADIATION INFLUENCED COLOR PARTICLES - Google Patents

Description

The invention relates to a method for generating characters that remain visible Color particles influenced by radiation in writing positions that can be controlled on one another, in which applied electrographically to an ink carrier moving in the recording direction Ink particles are exposed to an electric field in the area of the printing position of a is influenced by the character to be printed profiled light beam and the color carrier in the exposed Area to be moved to the recording medium.

ίο Procedures of the aforementioned type are various known. So shows z. B. the number 36 of the VDI-Nachrichten of November 30th 1960 a writing method, which is intended in particular as an output unit for data processing devices is. With this method, very high writing speeds can be achieved. Also the U.S. Patent 2,890,923 shows a device which makes it possible to use a radiation source Make notes on writing paper. Here, the color particles are in the Brought to the area of radiation and exposed to an electric field, which in the area of the Print position is generated. However, in order to transfer the color particles to the recording medium additional optically influenced opposite poles are necessary. This means that from the technical effort here the achievement of a price such as that used today for conventional electrically operated, mechanical ones Typewriters is common, must be exceeded by far. In addition, the devices to carry out the known methods are designed so that the view of the written Text is not immediately free. However, this is an indispensable requirement for a typewriter because the operator must be able to control the written text at all times. The invention is therefore based on the object of a device for recording information with the aid of an optical radiation source, as is known from US Pat. No. 2,890,923, so that it is suitable for use in a typewriter. To solve this Task is proposed that the light beam through selected in the manner of a typewriter and character stencils brought into the beam path are profiled, and that the adhesion the paint particles on the radiolucent paint carrier causing electrical charge in a known per se Way collapses in the places struck by the light beam and which are now free Color particles in the direction of a arranged behind the recording medium, with an electrical Potential acted upon guide surface moved and after being deposited on the recording medium as a result be fixed by the absorption of energy from the radiation. In this method, the fact that the Carrier of the color particles has holding properties that are only changed by the action of the radiation to enable the transfer of the color particles to the recording medium, one of outside acting selective field avoided together with its source. This creates a after Typewriter working with this method is considerably simplified.

An Ausfülirungsbeispiel the invention is described below with reference to the drawings. It shows

F i g. 1 a basic arrangement of the main

parts of a device for example implementation the procedure,

F i g. 2 a device for carrying out the method using a band-shaped, carrier coated with thermoplastic paint dust.

In Fig. 1 a device for implementing the method is shown schematically. 1 is a radiation source which is suitable for generating a bundle of primarily parallel electromagnetic radiators 4 and for projecting them onto the recording surface 3 through the template arrangement 2. The radiation energy in the beam 4 is essentially evenly distributed over the entire projection cross-section, while the cross-section of the beam 4 α emerging on the back of the template 2 is profiled by the template according to a character to be recorded. An image of the character to be recorded is created on the recording surface 3.

The selection of the templates embodying a specific character can be made, for example, by electromagnetic means and controlled by a keyboard in the manner of typewriter keyboards. At the same time, by striking such a keyboard, the radiation generator 1 can also be switched on using means known per se, so that the beam 4 α occurs immediately after a template has been set. During the change of the template, the advance of the recording surface 3 can also be accomplished in a known manner.

Of course, z. B. for a reduced image of the stencil image on the recording surface, any optics switched on between the radiation generator and the recording surface 3 be. As a result, the template can possibly be on a different, more easily controllable scale are executed.

FIG. 2 also shows an arrangement in which an endless carrier 4L is primarily provided. It is also radiolucent and is guided in the line direction in front of the recording surface 3. Its progression takes place at the writing speed in the direction of the arrow. Before it enters the recording area, it passes a device 42, known per se, for electrically charging the tape at a potential of a suitable level. In a manner similar to that in known xerographic recording devices, the tape is then uniformly dusted in a dusting device 43 with a powder of thermoplastic material and thus reaches the recording area. As soon as the bundle of rays 4 α occurs, the electrical charge on the carrier 41 breaks down at the points hit by the radiation, and as a result, the powder particles at these points are under the predominant influence of a potential applied to the electrically conductive guide surface 44 in the direction of the Accelerated recording surface and fixed there by softening or liquefaction as a result of the energy absorption from the radiation. By means of an electrical time control which, if necessary, allows the radiation intensity to be controlled in two stages, it can be achieved that in the first stage of radiation intensity the inclination of the powder particles in the direction of the drawing surface is initiated, while the irradiated surface is softened Powder only occurs after the second level of radiation intensity has been switched on, ie as soon as the particles leave the carrier or have reached the recording surface.

However, it is also possible to carry out a pre-irradiation until the powdery paint particles are detached from the carrier Provide low strength and the main radiation only after the particles have detached from the To turn on carrier 41.

This device has the advantage that no stop system is required. The writing process is therefore completely silent.

In the previous representations devices have been specified in which the radiation generator outgoing bundle of rays is profiled in its cross section by a template. That The characters to be recorded appear as an image of the template character on the recording surface or on the intermediate ink carrier. However, it is just as possible that from the radiation generator to focus light beams in a known manner and by means of deflection devices for example, to deflect in two coordinates that the character to be recorded written from the deflected bundle of rays as a facsimile or raster image and in the form already described Art is fixed.

It is also possible to design at least one of the systems as a mirror wheel. According to the state According to the latest developments it also appears possible to deflect the beam by means of a Make an optical system whose refractive index can be changed directly by the deflection voltages is so that the deflection of the focal point is achieved without mechanically moving means can be.

It should also be noted that in the writing method according to the invention, writing errors can be eliminated in a very similar way as with normal typewriters, after removing the ink ribbon from the recording area and inserting a radiation-permeable replacement ink carrier with thermoplastic ink particles in the color of the recording surface, _a i _{so z} , b. in white color, the erroneously written character can be deleted by repeated writing with the wrong character.

When using templates as typeface additional carriers may for the reproduction, that is, not schablonierter characters od instead of the main beam 41. Like. In the footprint area be einführba _rC r supplementary image carrier provided. This can consist, for example, of a piece of film that is provided with a cover layer that has a radiolucent typeface. Such supplementary templates can be kept in stock in a magazine and inserted into the impression area by hand, possibly with a mechanical auxiliary device.

The supplementary templates can also be based on a film strip which can be introduced into the impression area by a mechanism be that they can be selected by shifting the stripe in the direction of the line.

Finally, there is also a version of the supplementary clipboard conceivable, which on a film

fen od. The like. Carries a heat-resistant top layer; in this top layer can each with a stylus additionally desired typeface can be engraved with local removal of the top layer.

The last-mentioned supplementary template can also be used on the other side at the same time be provided with a thermoplastic color layer, so that the supplementary stencil can also be used without any involvement the ink carrier or the like normally involved in the writing process can be used.

Finally, a further arrangement for the scraping ionization of the radiation should be given. she consists from a radiation amplifier designed as an image converter, d. H. for example from a known per se special design of a laser with a projection surface as image input and a surface for the output of the one designed on the input surface, amplified in the laser and as primarily coherent Radiation bundle exiting, profiled ray bundle. The projection of a typeface on the input can in this arrangement with known and therefore not shown means such. B. a plurality of normal selectable light sources, templates and optics take place.

A combination of the above can also be used as a particularly advantageous modification of this arrangement Radiation amplifier can be provided with a cathode ray tube. It can do that from the Cathode ray tube on the screen generated typeface by means of optics on the input of the Image converter are projected. On the other hand, it is also conceivable to use the screen of the cathode ray tube to unite constructively with the image input of the radiation intensifier, so that a unit arises whose input part with the usual, for generating or selecting a typeface required electrodes is provided, and at the output part known means for radiation amplification are provided. In principle, it does not matter whether the input part is a known one Cathode ray system with a built-in image selection system, or a simple system, With the deflection voltages selectable from a memory, the cathode ray in two coordinates distract and thereby produce a raster or facsimile image on the screen. In the latter Case can advantageously for the structural assembly or for the union with the Image intensifier use a rod-shaped cathode tube.

1 sheet of drawings

Claims (6)

Patent claims: 1. Method for producing characters that remain visible from radiation-influenced characters Color particles in writing positions that can be controlled on one another, in the case of which on one in the recording direction moving ink carrier electrographically applied ink particles be exposed to an electric field in the area of the printing position of a is influenced by the character to be printed profiled light beam and the color carrier in the exposed area are moved to the recording medium, characterized in that, that the light beam (4) is selected in the manner of a typewriter and placed in the beam path (2) is profiled, and that the adhesion of the color particles to the radiolucent Ink carrier (41) causing electrical charge in a known manner to the of the Light beam (4) collapses and the now free color particles in the direction one arranged behind the recording medium (3) and having an electrical potential acted upon guide surface (44) moved and after depositing on the recording medium (3) be fixed as a result of energy absorption from the radiation. 2. The method according to claim 1, characterized in that for profiling the radiation Interchangeable templates known per se are provided. 3. The method according to claim 1, characterized in that the beam generated (4) optically focused in a manner known per se and in a manner known per se by means of deflection Way is influenced so that the written image to be generated is recorded as a facsimile or raster image will. 4. Device for performing the method according to the preceding claims, characterized characterized in that for detaching the powdery paint particles from the carrier (41) a Pre-irradiation of low intensity is provided, and that the main radiation power only after Detachment of the particles from the carrier occurs. 5. Device for performing the method according to the preceding claims, characterized characterized in that to keep the preheating temperature constant in the event of fluctuating ambient temperatures a control device known per se is provided which controls the resistance of the electrical preheating circuit increases when the outside temperature rises. 6. Apparatus according to claim 3, characterized in that for deflecting the beam at least one optical, primarily combined with a laser arrangement or the like System is provided whose refractive index can be influenced by the deflection voltages.