DE1812685A1 - Thermal writing - Google Patents

Description

Tel. 201989 I O I

Henning Gunnar Car I sen, Sandbjergvej, Sandbjerg 0sterskov, DK-295o Vedbaek, Denmark, and ErI ing Car I sen, Fuglevadsvej 71, DK-28oo Kgs. Lyngby, Denmark.

Thermal writing unit.

The invention relates to a thermal writing unit with a system of

Writing elements in the form of electrical resistors that are activated by means of a control circuit

optionally supplied with power depending on signals from a signal generator ^

and due to the heat developed in this way on one with them in heat-transferring Heat-sensitive carrier held connection generate corresponding writing elements. The signals received by the signal generator represent characters such as letters, numbers, mathematical symbols, etc. The signal generator can in principle an arbitrary one, even e.g. a mechanical calculating machine. Particularly What is interesting, however, is the use of thermal writing units in conjunction with electronic ones Devices such as electronic calculating machines, calculating machines or data processing systems, in that the electronic mode of action is thereby extended to the writing mechanism and mechanical movements in the writing mechanism are entirely avoided, apart from that of the feed movement of the document carrier. Also the use of ribbons ^ or printing ink is avoided.

Thermal writing units are known in which the writing elements are punctiform are and either in a single row or in a system of rows and columns are arranged. In the former case, they must be required for the formation of a character borrowed points are gradually recorded with repeated advancement of the document, which slows down writing. In the latter case, the attachment of the supply lines leads for the writing elements to complications in the structure of those carrying the writing elements Document. In both cases the difficulties become greater if one tries improve the clarity of the written characters by refining the point division.

According to the invention, these difficulties are overcome in that the

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Writing elements form bar mosaics, which together with power supply lines for the Film application writing elements on a surface of an insulating writing member exist.

A rod mosaic is a figure made up of a number of rod-shaped elements consists, in their various combinations, of each sign of a sign system can reproduce. In the case of the use in question here, use the bar mosaic only a small part of the area of the writing surface, so that for the attachment of the supply lines enough space remains. The whole system of writing elements and supply lines can therefore be made by simple well known methods in the form of Film coatings are applied to the surface of a simple flat substrate, so that a finished text link can be created without any collecting or assembling processes.

The writing member usually has a number of font mosaics in one Row up. Depending on the desires in terms of cheapness of manufacture and simplicity the electronic circuit on the one hand, and the operating speed on the other hand the bars of the bar mosaics one after the other according to different dialing systems or all excited at the same time. Because of the simplicity of the basic structure, this can easily be reproduced to form a writing which contains a number of Rows of stick mosaics for writing a corresponding number of Has lines, whereby very high writing speeds can be achieved.

The invention is to be described in more detail below with reference to the drawing. Show on this

Fig. 1 and 2 examples of bar mosaics,

3 shows a diagram to explain the basic mode of operation of a

writing mechanism according to the invention,
4 shows, in an enlarged diagrammatic representation, a heat writing block according to an embodiment of the invention,

° Fig. 5 in still a larger scale a fragment of V, Fig. 3, the surface of the writing block ⁰⁰ of FIG. 3,

⁰⁰ Fig. 6 and 7 show examples of block diagrams of the electronic equipment of a "" * according to the invention writing station,

^ISI> Fig. 8 and 9 are schematic diagrams showing examples of the paper guide a orfindungsgemässen write station,

Fig. Io shows a schematic side view of a writing mechanism according to the invention for writing multiple lines at the same time,

11 shows, on an enlarged scale, a diagrammatic view of a component

of the thermal writing unit according to FIG. 10, and FIG. 12 shows a view corresponding to FIG. 5 of a modified embodiment

the surface of the writing pad.

Fig. 1 shows an example of a bar mosaic with seven bars and illustrates the way in which the digits of the decimal system are mixed up in various ways the bars of the mosaic can be formed. Fig. 2 shows a bar mosaic with 16 bars, by means of which, in addition to the numbers, the letters of the Latin alphabet are also represented can be.

Fig. 3 shows how writing elements in the form of electrical resistors 1-7 are connected to a battery B through contacts K1-K7 according to the pattern of FIG. If, for example, the contacts K2, K5 and K7 are closed, the writing elements 2, 5 and 7 heated. These are the elements which correspond to the number 7 according to FIG. 1. Will Now a piece of heat-sensitive paper is pressed against the bar mosaics, the number 7 written by thermal copying on paper. The contacts K1-K7 represent electronic Contacts controlled by the register of an electronic calculating machine.

In Figs. 4 and 5, Io denotes an electrically insulating flat member which is a Substrate forms on which a number of rod mosaics with rods 1-7 in a row next to each other are attached. In this embodiment, the bar mosaics are with another Bar 8 added, which represents a decimal point or a comma. Put the bars Writing elements of the writing mechanism represent and are powered by supply lines 11 optionally excited to write. Both the rods and the supply lines consist of film applications on the surface of the insulating member lo. The insulating member Io is attached to a body 12 made of material of high thermal conductivity consists. The body 12 serves both as a support for the insulating member and as a heat conductor for the dissipation of heat from and through the insulating member learn from the writing and how to dissipate this heat into the environment. To the To enlarge the heat-emitting surface of the body 12, it can be provided with ribs 13 be seen. The substrate member Io can be made of fused quartz (silica) or boron, _

made of silicate glass. It should be thin enough to allow the rapid derivation of excess ^ ₀

To allow heat from the writing elements to the heat conductor, on the other hand it should be thick Q ₀ enough so as not to cause an inadmissibly high heat dissipation from the writing elements during cos writing. A thickness of 0.5 mm was found to be suitable for the working conditions applicable to an office rule. Dicdic writing elements 1-8

forming film orders can be made by well-known circulatory printing methods, such as thin film technology, Thick film technology or planar technology can be applied to the substrate Io. Suitable Examples are vapor deposition and cathode sputtering. Application by doping or Diffusion in connection with epitaxy is also possible, as is material applied in this way is to be regarded as a film order in the context of the present application.

As an example, the writing elements can consist of Cr, which is applied by cathode sputtering in a thickness corresponding to 100 Ω / □ (around 300 Angstroms = 0.003 mm). The elements can be 1 mm long and 0.1 mm wide. The supply lines can consist of Au with a thickness corresponding to 0.5 ti / U (around 5,000 Angstroms = ο, οοοΰ mm) and be o, lo, 2 mm wide.

To protect the writing elements and the supply lines against mechanical and chemical influences can affect the writing surface of the member Io with an electrical element insulating, wear-resistant and chemically resistant film. For example Such a film can consist of quartz, which is produced by high frequency cathode sputtering can be applied to a thickness of 5,000 to 1,000 angstroms.

Typical values of the currents used to excite the writing elements and voltages are 27 volts and 3omA. A suitable energization time for writing elements from Cr with the dimensions given above is 2o msec., which is the average Temperature is increased to around 16o C, which is good for writing on a commercially available heat-sensitive paper is suitable. The excitation time can vary with other materials and dimensions be shorter, e.g. 5 msec. or even shorter. The excitation time can also be selected to be longer if longer writing times are permitted, e.g. for Office computing machines. The excitation time, i.e. the duration of the current pulses, represents the elementary writing time. The total writing time depends on that for the excitement of the Writing elements used system. Some examples of such systems are given below explained.

The heat conductor 12 can be made of aluminum and should be dimensioned so that the heat conductor keeps the surface of the substrate at a low average temperature and through rapid heat dissipation the mutual heating of adjacent ones Writing elements limited. For an office computing machine, a heat conductor with a Thermal resistance of lo ° C / watt found suitable.

If high writing speed is not essential, the sticks can be used one at a time been excited. Preferably, all of the to be written in one line Rods in the same position in the mosaic chosen for simultaneous writing, and this process

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is then repeated for sticks in other layers, until sticks in all positions for writing have been chosen. If the bars are chosen in a jumpy sequence, reduced there is a risk of mutual heat from adjoining writing elements. For example, the rods 1-8 can be indicated by their reference numerals Order to be chosen.

Fig. 6 shows electronic equipment necessary for gradual excitation the rods can be used in the manner described. 14 is the digit register one Calculating machine and 15 the associated point register. The resistances 1-8 represent the bars 1-8 in the various digits of the row of mosaic bars. 16 is a decipherer (Decodior unit), through which a line in the register of the calculating machine and any Commas in bar mosaic language is transferred to a write register 17. 18 is ™ a supply line for sequence pulses. 19 is a stick voter by which the staves can be selected in the desired order for writing. The stick voter 19 becomes' supplied with write pulses from a write pulse generator 2o. The line 21 symbolizes the timing that exists between the write pulses and the sequence pulses must be, so that the transmission of write pulses begins when a whole Line has been transferred from the register of the calculating machine to the write register. Since all the times of the electronic operations can be considered negligible, the total writing time when using the electronic equipment becomes according to FIG. 6 eight times the elementary writing time. With an elementary writing time of 20 msec. The total writing time is therefore 16o msec. This writing time is for an office calculator that has plenty of time to write ™ is harmless.

The total writing time is reduced by half if there are two bars at a time be chosen for writing. In this case, however, the writing register must be double be big. It is also possible to close all bars in all numbers at the same time Select. Electronic equipment for use in this case is illustrated in FIG. 14 again denotes the number register of a calculating machine, 15 a point register, 16 a decoder, 17 a write register and 18 a sequence pulse line. Here, too, the resistances 1-8 represent the bars in the various digits. 2o is again a writing impulse generator, but in this case it is directly connected to the rods connected is. In this embodiment, the write register must be eight times as large be like in Fig. 6. On the other hand, the total writing utensils will be 1/8 or in other words 2o msec. = the elementary writing time is shortened.

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When choosing the system according to which the rods are excited must therefore. Writing time must be weighed against price. Other systems are also possible. E.g. can the characters in a line are written one after the other in their entirety.

FIG. 8 shows how a heat-sensitive paper web 22 is _{guided between the writing block To 7} 12 of FIG. 4 and a base 23, so that heat can be transferred from the heated writing elements to the paper web by contact copying.

In the embodiment illustrated in FIG. 9, the paper web is between one of the operator facing glass plate 24 and the writing pad lo, 12 out, which in this case is designed for mirror writing. In this case, it becomes heat sensitive Paper used that has a heat-sensitive coating on the back, which causes a color change on the front of the paper. In the embodiment according to FIG. 9, the characters are written at the moment of writing visible.

FIGS. 10 and 11 schematically show a thermal writing unit for simultaneous Write a plurality of lines. The device has a plurality of writing members Io according to FIG. 4. The bar mosaics on the writing surface 25 are not shown. The writing members are arranged along an arc of a circle and each have a radial one Extension 26 on, wherein supply lines 27 for the various rods each Bar mosaics are printed with insulating layers 28 of various lengths in between are, so that expanded connection points are formed for the line connections will. A continuously rotating, perforated feed cylinder 29 is coaxial with the The writing surfaces of the writing members are stored. The surface of the cylinder is in a short distance from the writing surfaces. Inside the cylinder 29 is a stationary one arranged pneumatic distributor 3o, which has an arcuate chamber 31, which in a small distance from the perforated wall of the cylinder 29 lies. The outer wall of the Chamber 31 is perforated. A heat sensitive paper web 22 is between two continuously revolving rollers 32 and 33 presented, the speed of which by a loop indicator 34 shown schematically is regulated. The pneumatic distributor 3o is connected to a source of alternating positive and negative pressure. In the Overpressure periods is through the perforations of the chamber 31 and the perforated Wall of the cylinder 29 blown air which firmly adheres the web 22 to the writing surfaces of the Writing links Io presses where the track has come to a standstill, while all lines are at the same time to be written. For this an electronic equipment is used, that of the

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according to Fig. 7 is similar, with only the write register to the number of at the same time writing lines is duplicated. The source is then switched to suction, whereby the web 22 is firmly pressed against the perforated surface of the cylinder 29 and thus it is advanced through this until the web 22 is in position for writing of the next set of lines. In the meantime, is the next sentence of lines have been transferred from the character signal generator to the write register.

The writing members can be cooled in any way. E.g. can be the spaces between the radial extensions of the writing elements are closed by circular arc-shaped walls, as indicated at 35, to chambers 36 for a circulating coolant to bildoni

The writing mechanism shown in Fig. Io can be used for a greater number of writing elements

dor e.g. be built loo by increasing the diameter of the cylinder 29 and / or a larger part of the circumference of the cylinder for the attachment of writing elements is used. By using a suitable bar mosaic, the device for writing both letters and numbers, e.g. all characters of the so-called alpha-numerical system. The device is suitable in this form especially for writing out information from a data handling system at top speed.

As shown in Fig. 12, the writing elements 1-8 can be provided with an insulating Film 37 are transferred, whereupon a film application 39 of high thermal conductivity in position is applied over each bar mosaic. The film order 38 has the same basic form like the bar mosaic, but the gaps between the bars are narrower or not at all "

more available. The film application bridges the gaps in the bar mosaic below at least partially so that those written in the heat-sensitive sheet The gaps that arise in the characters can be reduced or made to disappear entirely.

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Claims (11)

-3- claims: 1. Thermal writing unit with a system of writing elements in the form of electrical ones Resistors, which by means of a control circuit as a function of signals from a sign signal generator can be optionally supplied with power and through the developed thereby Heat on a heat-sensitive one kept in heat-transferring connection with them Carrier produce corresponding writing elements, characterized in that that the writing elements form bar mosaics, which together with power supply lines for the writing elements from film applications on a surface of an insulating Writing member exist. 2. Heat writing unit according to claim 1, characterized in that that the Schreibrjliod is connected to a heat-dissipating body in a thermally conductive manner. 3. Heat writing unit according to claim 1 or 2, characterized in that that the writing surface of the writing member with an electrically insulating, wear-resistant and chemically resistant film is coated. 4. Heat writing unit according to one of claims 1-3, characterized in that the writing elements are coated with an insulating film, and A heat-distributing film covering is arranged on the surface of each bar mosaic, which is insulated in this way that at least partially bridges the gaps in the bar mosaic below. 5. heat writing unit according to claim 4, characterized in that that the thermally conductive film covering has the same basic shape as the rod underneath, has mosaic. 6. heat writing unit according to any one of claims 1-5, wherein a number of is provided in a row attached bar mosaics, thereby gckonnzeichn e t that the control circuit is arranged so that it is in all in one row too writing characters selects rods in the same position and the associated writing elements supplied with power at the same time, and this process is repeated for bars in other layers, until rods in all positions have been selected for writing. 7. heat writing unit according to claim 6, characterized in that the control circuit is arranged so that it selects the rods in abrupt order. 8. heat writing unit according to any one of claims 1-5, wherein a number of is provided in a row of bar mosaics, thereby gckcnnzeichut, that the control circuit is arranged in such a way that they are all in one line 9 Π 9826/102 G writing characters one after the other and all selected for writing each one The required rods are powered at the same time. 9. Writing unit according to one of claims 1-5, in which a number of in one Row attached bar mosaics is provided, characterized in that the control circuit is arranged so that they are all to be pressed in one row Select characters at the same time and all of the necessary to write those characters Rods powered at the same time. 10. Writing unit according to one of claims 1-5, characterized in that that several rows of bar mosaics are provided, and that the circuit is arranged so that they are all in a number corresponding to the number of rows Selects characters to be written from lines at the same time and all associated bars powered at the same time. 11. Writing unit according to one of the preceding claims, characterized in that that the writing elements and the control circuit for mirror writing are arranged, and the writing unit is oriented and arranged so that the back of the Writer is kept in thermally conductive connection with the writing elements, and the front of the same is visible from an operator's seat. 9 0-9 826/1026