DE3425679A1 - Mosaic printing device for typewriters or similar office machines for printing on a recording carrier in different directions - Google Patents

Abstract

When dot matrices are stored in a byte- or word-oriented memory, the matrix can only be rotated by 90 degrees by bit-by-bit processing, for example for generating landscape recordings. The time consumed for this purpose is very great. The invention is based on the object of creating a mosaic printing device which allows optional printing on a recording carrier in different directions with little time consumption. This object is achieved by the fact that the dot matrices in the character generator 24 consist of blocks of 4 x 4 dots each and that a multiplexer 26 is arranged between the character generator 24 and the processor 28, which outputs the dot matrices unrotated for generating portrait recordings or rotated block by block by 90 degrees for generating landscape recordings via the processor 28 to the memory 30. Since the multiplexer 26 can also rotate the dot matrices 36 by 180 and 270 degrees, only one character generator is necessary for a type of lettering in four directions of writing. <IMAGE>

Description

Mosaic printing device for typewriters or similar office machines

for printing a recording medium in different directions The invention relates to a mosaic printing device for typewriters or similar office machines for optional printing of a recording medium in different directions, z. B. in portrait or landscape format in the preamble of claim 1 specified type.

For filling out forms or for labeling diagrams Labels are required both in the row direction and in the column direction. Therefore, a matrix printer should be able to produce optional lines of text, either in the longitudinal direction or in the transverse direction on the side of a recording medium get lost. This line generation takes place in the optical printer according to the German Patent 25 11 716 by the choice of the binary words of the brief, the one Display character matrix according to the desired line orientation. When printing z. B. should be done in the usual typesetting, in which the lines of text on the short dimension of the page, this printing can be done through a first database of the type document, which defines the characters by means of column spacing. To generate the writing line running in the longitudinal direction of the page, a further database should be provided in the rotated font, the patterns for grid strokes, running along the writing line of the page. When printing in both sets of fonts the paper is fed to the printing machine in the same way. The difference lies in the way the electronic control system throws the image onto the drum. In order to generate recordings in portrait or landscape format, in this case two databases required.

From DE-OS 31 04 794 a matrix printing device is known, in which a decoder is provided to control the printing elements, which is used for printing in one writing direction the assignment of the character columns and for printing in the other writing direction indicates the assignment of the character lines. Since the point matrices are stored in a byte, the matrix can only be rotated by 90 degrees by bit-wise Processing possible. The time required for this is very great.

A mosaic printer is also known from DE-OS 33 10 091, at which the character generator section has a multiplexer which is from a Character codes supplied to an external unit are converted into figure codes and then converted into stores a page memory in corresponding control codes. The nature of this code storage in the page memory differs from the portrait orientation to the landscape orientation of a sheet. The data from the page memory is then transferred to a DMA counter given to a font memory.

The resulting dot image pattern data is then translated by a parallel converter or a shift register converted into a serial image signal. The image signal becomes then finally fed to a plotter via a data line, which receives the data from a Each side. The tax and costs involved are considerable.

The invention is based on the object of a mosaic printing device for typewriters or similar office machines that have optional printing of a recording medium in different writing directions. These The object is achieved by the invention characterized in claim 1.

The mosaic printing device according to the invention enables the generation of characters and images consisting of raster points in different writing directions, z. B. in portrait or landscape format by simply rotating the Character matrices without changing the storage format in the character generator, whereby the basic unit of 4 x 4 points are retained for the point matrices in the character generator. To the The processing program is independent of the writing directions O degrees, 90 Degrees, 180 degrees and 270 degrees a dot matrix always in the correct orientation offered, with only one character generator for a font in four writing directions necessary is. In addition, by building the point matrices from blocks to each 4 x 4 points, which are stored in a 16-bit memory word, a better one Utilization of the character generator achieved.

The invention is illustrated below using an exemplary embodiment described.

FIG. 1 shows, in part, the print head of an optical matrix printer in section, Figures 2a to 2d recordings in four different writing directions, FIG. 3 characters in enlarged form with superimposed point matrices and figure 4 is a block diagram of the data flow.

The invention is applicable to all printers producing halftone dots Color jet dot printer, laser dot printer, etc. can be used. The following will an optical printer described with the subject matter of the invention. Figure 1 shows a light source 1, the z. B. consists of a halogen lamp. That from this light source 1 outgoing light bundle is incident on an entry surface 2 of a cross-section converter 3, which converts the circular light surface 2 to a light wave 4. The cross-section converter 3 consists here in known way a bundle of optical fibers that transmit the light via light coupling rods 5 z. B. lead made of glass to a first polarization filter 6. After that the light will polarized via light switching elements 7 to a second polarization filter serving as an analyzer 8 fed, whereby the light when passing through lenses 9 then a certain Place on a photosensitive layer 10 of a carrier drum 11 exposed.

From the light source 1 to the cross-section converter 3, the polarization filters 6, 8, the light switching elements 7 and the lenses 9 existing optical print head 12 enables graphic and text information to be recorded line by line the photosensitive recording medium 10, which is then subsequently in a known Way to be developed and fixed electrographically. For this purpose there is a developing device 13, a pair of paper feed rollers 14 for feeding a recording sheet 15, a transfer station 16 and a fixing device consisting of press rollers 17 provided.

There is also a cleaning station around the carrier drum 11 18 and a charging corona 19 are provided. To create a closed print line on the To achieve recording media 10 are those arranged side by side in the line direction Light switching elements 7 mounted adjustably on a carrier 22 of the housing 20, whereby an alignment of these light switching elements 7 to the optical axis 21 can be reliably achieved is. The selective exposure of the evenly charged recording medium 10 generated by the light points controlled by the light switching elements 7 binary Elements of an electrostatic latent image consisting of discharged white or background areas and loaded image areas. The invention relates now on the control of the light switching elements 7.

Referring to Figure 4, there is a block diagram of a pressure control device shown according to the invention, wherein in a character generator 24 for printing required fonts and balls are stored as a pattern like a dot matrix.

Each of these stored characters contains point matrices 36 Blocks of 4 x 4 points each, which are stored in a 16-bit memory word, see Figure 3. The character generator 24 is above a data channel 25 with a Multiplexer 26 in connection, via a data channel 27 with a central Control unit serving microprocessor 28 is connected. This processor 28 interprets the control signals from an external unit or from a computer and controls all search processes and also the flow of data via a data channel 29 to a memory 30 for storing the image data. This memory 30 can z. B. be a Ballseltenspelcher DIN A4 with a 1: 1 image. Which thereby The resulting point image data are transferred to a buffer memory 32 via a data channel 31 and converted in this (32) into a serial image signal. The serial The image signal is then transmitted to the light switching elements 7 in the via a data channel 33 optical print head 12 supplied. The processor 28 is also available via a data channel 35 with the multiplexer 26 in connection, the processor 28 having two address bits to mode selection to the switchable multiplexer 26 can lead.

To images, characters or other patterns in different directions To be able to generate on the drawing sheet 15 according to FIG. 1, the image data already stored accordingly in the memory 30.

All of them come from the character generator to create portrait recordings 24 read out data (16 bits) of a dot matrix untwisted via the multiplexer 26 to the as image side Memory trained memory 30. Shall the recordings, on the other hand, are partly or wholly in landscape format on the recording sheet 15 are reproduced, then the multiplexer 26 must by an address bit from the Processor 28 can be switched. For this purpose the point matrices for landscape recordings rotated by 90 degrees in blocks. The turning of point matrices is done without Change of the storage format in the character generator 24, the basic unit of 4 x 4 points are retained.

The time required for rotating by the multiplexer 26 is very little.

In addition, the multiplexer 26 can convert the point matrices 36 Rotate 180 degrees and 270 degrees, with four writing directions according to the figures 2 a - 2 d result. The character patterns in Figure 2a are untwisted in the figure 2 b rotated by 90 degrees, in FIG. 2 c by 180 degrees and in FIG. 2 d rotated by 270 degrees shown. The processing part of the program for restoring the point matrices from the character generator into the image memory becomes independent of the writing directions O degrees, 90 degrees, 180 degrees and 270 degrees a dot matrix always in the correct one Orientation offered. This is for a font in four writing directions only one character generator 24 is required. Since the multiplexer 26 is twisting the Takes over point matrices 36 and thus relieves the processor 28 of this work, the time required to generate the twisted writing directions is very low.

Claims (2)

Claims: Mosaic printing device for writing or the like Office machines for the optional printing of a recording medium in different Directions, e.g. B. in portrait or landscape format with a character generator, a a processor serving as a control unit, a memory for storing image data and one generating the images in the form of raster points on a recording medium Printhead, d u r g e k e n n -z e i c h n e t that the dot matrices (36) in the character generator (24) consist of blocks of 4 x 4 points and that a Multiplexer (26) arranged between the character generator (24) and the processor (28) is that the point matrices (36) are not rotated for the generation of portrait recordings or rotated by 90 degrees in blocks to generate landscape recordings via outputs the processor (28) to the memory (30). 2. Device according to claim l, d a d u r c h g e -k e n n z e i c h n e t that the point matrices (36) by the multiplexer (26) in blocks by 0 Degrees, 90 degrees, 180 degrees and 270 degrees are rotatable.