DE2365504C3 - Thermal printer - Google Patents

Description

The invention relates to a thermal printer according to the preamble of claim 1.

In a printer of this type known from DE-OS 19 64 957, printing is carried out by selectively activating the individual resistance elements in such a way that the individual resistance elements are supplied with a heating voltage as a function of the average temperature of the print head, which is detected by means of a temperature sensor will. This is because / .u, to avoid a deterioration or fluctuation of the print quality due to different cooling of the printing head between two printing Vorgangen that depends on ( ^'i- r printing speed, the printing time and the number of activated heating elements and to strongly varying temperatures of The heating power of the activated heat generating elements and therefore the temperature increase of the same from the printhead temperature is controlled according to the printhead temperature recorded by the sensor in such a way that the printing speed and the like no longer have any influence on the uniformity of the printing quality Cooling, however, results in strongly fluctuating heating outputs or temperature increases for the printing in the individual printing processes. This printer is not intended for multi-colored printing.

From the IBM Technical Disclosure Bulletin Vol. 1 No. 6, April 1959, page 4 is a method for monochrome Printing is known, according to the heat-sensitive paper initially to a temperature below the Color change temperature is preheated and then the temperature of the paper locally for printing is thereby increased beyond the color change temperature that types of printing against the paper be beaten and thus heat it up further by the impact energy. Furthermore, in this document describes a process by which selected areas of heat-sensitive paper are heated, until the color change temperature is exceeded. The heating takes place here either by infrared radiation or by pressing on heated printing types or other heated writing devices against the heat sensitive paper.

The invention has the object of providing a thermal printer according to the preamble of To create claim 1, which he / ugeführc different types of information in different colors prints out.

According to the invention, this task is carried out with the im characterizing part of claim I specified means solved.

In the printer according to the invention, the heat-sensitive paper with the different color changeover temperatures is first preheated in such a way that! no color change has yet taken place, but there is an initial temperature from which the temperature difference to the individual color change cmpera; .reu is reduced in each case. This Ausgangsiemperatur is detected by means of Dcicktoreinrichiung and / ur by appropriate heat Vorhei / .einriehlung under the control of the control circuit controlled I ⁷ Ur the multi-color printing the control circuit detects the type of her / ugefiihrlen information and accordingly activates the particular for printing Warmcerzcugungselemenie in the manner that the temperature from the initial temperature to the temperature leading to the desired color change he is hollow. Since the output temperature is controlled, printing in a desired color is always done with the same heating power. Since, furthermore, by reducing the temperature difference /. / if the respective color change temperature and the output temperature the relative temperature increases are increased to achieve the different color change temperatures, is there a clear? Printing in the color determined by the type of information. If one advantageously chooses the color change temperature for the most frequently printed color as the lowest of the color change temperatures, then the average heating power required for the printer can be reduced to a minimum.

are set. By controlling the preheater supplied heat and thus the preheating power and the starting temperature is reduced overall the heating power for the print, so that the effects of print speed and the like are significantly reduced. For a step-by-step increase in temperature, the known method is that Utilizes impact energy to increase temperature, is too imprecise and therefore not suitable for multi-color printing suitable

Advantageous embodiments of the invention are given in the subclaims.

The invention is explained below on the basis of exemplary embodiments with reference to FIG Drawing explained in more detail.

F i g. 1 shows heat-sensitive paper used in the thermal printer is used.

Fig. 2 shows the relationship between color change temperatures and color density in the heat-sensitive paper of Fig. g. 1.

F i g. 3 shows an embodiment of the thermal printer.

F i g. 4 is a longitudinal section of the printer of FIG. 3.

F i g. Fig. 5 shows a print head of the printer.

Fig.6 shows another embodiment of a Feed device with a rubber roller of the printer.

Fig. 7 shows schematically the control of the heating of the printer.

Fig. 1 shows paper sensitive to heat for multicolor printing with the thermal printer. Fig. 2 is a graph showing the color forming properties of this paper. The paper has a heat-sensitive layer I, which forms a color at a temperature Ti, and a heat-sensitive layer II, which forms a color at a temperature T ₁ , the layers being applied to a base material III. For ordinary backs such as black, the heat-sensitive layer I is used, while for printing in a different color, such as red. the heat-sensitive layers II and I are used.

3 shows an exemplary embodiment of the thermal printer, which is kept small as a result. that a pulse motor 12 ( ^{Fig. 4) is housed within a 1} "feed roller IO so that the interior of the same is sufficient Between the wires 7 and 9 there is mounted a print head 13 as shown in Fig. 5, which is moved by the rotation of the motor to print a line.

If the ocr motor rotates in the opposite direction, it will Gear? 0 is rotated in the opposite direction shown by the arrow, whereby the wire 9 is unwound and the head returns to its original position. When the printer receives a command signal for the advance of the paper 2 is fed, the drive of an ω takes place via an electromagnetic clutch Feed device 30 for the paper, which can be rotated outside of the motor 12 as shown in FIG mounted isl. The paper is frictionally on a rubber feed roller mounted on the feed device 30 JO vorgesehor.cn.

In Figure 4, 26, 27 and 28 denote bearings, of which the bearing 26 is mounted on an axis 24 supporting the motor and the feed device 30 rotatably carries. The bearing 27 is for a rotation of the shaft 12 'of the pulse motor 12 with respect to the dei Feed device 30 is provided, while the bearing 28 rotates the feed device 30 on a fixed wall 29.

In the embodiment of Figure 3, the diameter of the feed roller 10 in terms of Printing contact area of the print head sufficiently large so that the provided with a dot matrix Print head 13 rests flat. To achieve a further improved surface contact of the pressure head can also as shown in FIG. 6 shows a feed device with a polygonal rubber feed roller 32 be used. This polygon feed device is made in one piece and has an im essentially flat printing surface, which is extremely well suited for such a print head, which is difficult to form with a curvature.

In the case of the FIGS. 3 and 4, as the motor 12 rotates, heat is radiated which collected in the feed roller 10 and transferred to the heat-sensitive paper 2, which is to may be heated to an extent that does not result in any color formation or change in color. if this Vorheizsysteni is provided in the thermal printer, can therefore be used for printing the Current supplied to the printhead can be decreased; this increases the life of the printhead It is also possible to have an indistinct print, a limitation of the printing speed to one Maximum value increases due to a delay in the response of the thermosensitive paper and the like remove.

FIG. 7 shows an exemplary embodiment in which a heat-emitting execution or preheating device is provided on the print head. In FIG. 7, 3i denotes a print head which can be used in different embodiments. 34 denotes a feed line of drive jet with which each heat generating element of the print head is selectively applied. 35 denotes a temperature control circuit or a control circuit for preheating. The control circuit supplies a preheating current via a line 36 in order to heat the print head 33 to an extent such that it cannot be printed. Various preheating devices of the printhead 33 are considered below. For example, a heating wire using integral technology may be embedded or inlaid in the vicinity of the heat generating element of the head, or each heat generating element may have a current of half size or one; Third. · - supplied of the drive current for ordinary printers. 37 denotes a control device or detector device which detects the existing temperature of the print head 33, feeds it back to the control circuit 35 and controls the preheating current on the line 3t. In this way, undesired printing by an excessively heated print head 33 is prevented and a room temperature is achieved in its vicinity which continuously ensures optimum printing at all times.

38 denotes an embodiment of a heat emitting or preheating device made of insulating material for heating the heat-sensitive paper to the extent that no color formation occurs. 40 denotes a line for supplying preheating current

while 41 is a line for feedback of detector current from one designed as a temperature sensor Detector device 39 to the control circuit 35 is designated. 40 'denotes a heating wire. the isolated exothermic device 38 is conveniently placed in front of where the pressure takes place by means of the print head 33. The optimal place is the place on the opposite of the print head 33 Side of the heat-sensitive paper.

With such preheating, multicolor printing is easily performed using the heat-sensitive paper as described with reference to Figs. 1 and 2. In this case, the color change temperature of the heat-sensitive layer II is higher than that of the heat-sensitive layer! (Fig. 2) so that it is required. to increase the drive current for the printhead. At the print head there is a limit due to a maximum allowable drive current, so that it is impossible to increase the current at will. In this case, the multicolor printing is performed in such a way that an increased current is supplied from the control circuit 35 to the print head 33 without damaging the head. When the increased current is delivered to the heat-generating device 38 or the print head 33, the heat-sensitive layers I and II respond, with a mixed color of the heat-sensitive layers I and II appearing. Accordingly, color formation or color change different from that obtained from the heat-sensitive layer I alone is obtained. Printing clarity and high printing speed are favorably influenced by heating the heat-sensitive layer II to the relatively high color change temperature from the base material III.

As described above. the power supplied to the head drive current is decreased by the Vorheizkonstruktion markedly, so that the multi-color printing on the color-forming highest Tcmpcratür can be supplied in a simple manner merely by controlling a current to the head while keeping the heat-sensitive layer without the head must be switched off . because the maximum permissible current is determined.

Alternatively, the curtain construction can be constructed in this way be that a current flows from the control circuit 35 only in the case that multi-color printing is performed while usually no preheating current to the insulating exothermic means 38 or the print head 33 flows.

The control circuit 35 also has the function that Dnickmusier differentiate for different colors and control. For example, if the printer is used on an electronic desk calculator, can use different color formations in the way

μ can be controlled that the printing of ordinary Number processing processes such as function characters, numbers to be processed or the like in black, the printing of calculation results in green, the printing of an overflow in red. the printing of polling memories in blue, etc. is performed.

In the embodiment of the thermal head printer shown in Fig. 7, there is a preheating structure formed, whereby the permanent heat demand as a result of rapid changes in tempcratures or current variation is reduced, so that the life of the print head is increased, the Printing speed increased due to performing printing with less temperature change and the printing sharpness is improved without the printing becoming uneven because of the temperature gradient on the heat-sensitive paper is not large.

For this purpose 2 sheets of drawings

Claims (7)

Patent claims: 1. A thermal printer with a thermal printhead with heat generating elements for printing a heat-sensitive paper by selectively activating the heat-generating elements of the printhead, characterized in that the heat-sensitive paper (2) has a plurality of heat-sensitive layers (I, II) which are at different temperatures (T \, Ti) discolor that the heat-sensitive paper heat can be supplied by means of a preheating device (12; 33; 38), the temperature of which does not cause discoloration of the paper and is detected by a detector device (37, 39), and that for ore ' A computer control circuit (35) is provided to selectively activate the heat generating elements of the print head (13; 33), which distinguishes the information supplied to it and, as a function of this, generates the signal to carry out multi-colored printing and the amount supplied by the preheating device Heat depending on the output signal of a detector device controls. 2. Printer according to claim I, characterized in that that the preheating device (12; 38) on the back of the heat-sensitive paper (2) is arranged. 3. Printer according to claim 1, characterized in that a preheating device in a Feed roller (10) for the heat-sensitive paper built-in feed pulse motor (12) is provided. 4. Printer according to claim 2 or i. characterized in that as Vorhci / einrichiiing a the back of the heat-sensitive paper arranged ring means (38) is provided. the a heating wire (40 ') and a detector (39). 5. Printer according to one of the preceding claims, characterized in that as a preheating device the print head (33) is provided. 6. Printer according to claim 5, characterized in that the print head (33) has a heating wire for preheating. 7. Printer according to claim 5, characterized in that the Wärmccr / .eugungsclemcntcn des Printhead (33) Vorhei / Mrömc are fed.