RU2200669C2 - Technique of jet printing and printer for its realization - Google Patents

Abstract

FIELD: printing on carriers of various types. SUBSTANCE: technique of jet printing is realized by way of transfer of drops of printing ink from printing plate to carrier by direction of train of pulses of laser radiation on specified point of ink layer. Under action of train of these pulses there emerges in point of incidence of laser beam series of luminous-hydraulic effects moving away from surface of printing plate, provoking sequence of acoustic pulses following one another, creating channel in given point for short time and throwing drop over it on to carrier. For maximum efficient use of proposed technique amplitude of pulses, their duration, relative pulse duration and number of pulses in sequence are established for coordinated action on specified points of printing ink layer. Printer for realization of technique has pulse generator that can generate train of pulses and pulse focusing aid that can direct one train of these pulses on each specified point on printing ink layer. EFFECT: high printing speed with minimal consumption of energy for ejection of drops of printing ink independent of printing speed and width of sheet of carrier. 4 cl, 3 dwg

Description

 The present invention relates to printing devices. More specifically, the invention relates to means for printing, in which the transfer of droplets of ink from a form onto a carrier is effected by pulses of laser radiation.

State of the art
There is a method of inkjet printing, which consists in placing the information carrier opposite the printing form with a smooth smooth surface, applying a continuous uniform layer of paint on this surface, applying light pulses to the given points of the ink layer, exciting a light-hydraulic effect at the indicated points of the ink layer to transfer drops from them paints on a carrier / RF patent 2096183, class 6 B 41 J 2/015 /.

 In the known method, the ejection of droplets of paint from a mold onto a carrier is effected by the energy of a light pulse, which, although significantly less than when dropping droplets due to the thermal effect, is still excessively large in order to either transfer droplets of paint from all given points single line, or provide scanning lines at high speed. An increase in printing speed to that achieved by mechanical printing devices leads to an increase in the power of light sources to a value that is difficult not only to create but also to realize.

 The printing device implemented according to the aforementioned patent includes a printing form placed opposite the carrier, means for applying ink to the form, means for generating radiation pulses, and means for focusing these pulses on predetermined points of the ink layer on the form for ejecting ink droplets from them.

 The means for generating pulses provided in this device is a laser, the power of which should be the greater, the higher the printing speed and the line width of the medium. Therefore, the known device can be used only at low printing speeds and it can not compete with mechanical printing devices for printing speed.

Disclosure of Invention
The basis of the invention is the creation of such a method and a printing device that would allow for high printing speeds with minimal energy consumption for the emission of droplets of ink, regardless of the print speed and width of the media.

 The problem is solved in that in the method of inkjet printing, which consists in placing the information carrier opposite to the printing form with a smooth smooth surface, applying a continuous uniform paint layer to this surface, exposing the given points of the paint layer to light pulses, exciting the light-hydraulic layer at the indicated points of the paint effect for transferring droplets of paint onto the carrier from them, in accordance with the invention, the light-hydraulic effect at each given point is excited repeatedly , Which at each given point sequentially sent the series of light pulses.

 With this printing method, the energy required to eject droplets of ink from predetermined points is divided between all the pulses of the series, which reduces the power of these pulses. It is advisable that the duration and amplitude of each pulse of light emission from the series, the repetition rate, and the number of these pulses in the series are set for coordinated action on each given point of the paint layer of all acoustic pulses arising from the sequential excitation of light-hydraulic effects in each of these points in the series. With this printing method, the energy of each pulse is further reduced.

 The problem is also solved by the fact that in a printing device containing a printing form placed opposite the information carrier, means for applying ink to the form, means for generating pulses of light radiation, and means for focusing these pulses on predetermined points of the paint layer to excite the light-hydraulic effect at these points and ejecting droplets of paint from them, in accordance with the invention, the means for generating pulses of light radiation is configured to generate series and pulses, and the means for focusing the pulses is made with the possibility of directing to each given point of the paint layer one series of these pulses to excite at the given points a series of light-hydraulic effects and the occurrence of a series of acoustic pulses in them.

 With this embodiment of the printing device, the power of the pulsed radiation source can be drastically reduced.

 It is advisable that in the printing device, the means for generating a series of pulses of light radiation contains devices for changing the amplitude of the pulses in the series, their duration, duty cycle and the number of pulses in the series for influencing the given points of the ink layer with the maximum total acoustic pulse with a minimum power of the means for generating light pulses.

 With this embodiment of the printing device, the power of the pulsed radiation source can be further reduced.

Brief Description of the Drawings
The invention is further explained in the description of specific, but not limiting, embodiments of the invention and the accompanying drawings, in which:
FIG. 1 illustrates the proposed method of inkjet printing when scanning a light beam on the surface of the printing form,
figure 2 - the same when exposed to a given point in the printing form by pulses of light radiation from independent sources,
figure 3 illustrates a General view of the printing device.

The best embodiments of the invention
The proposed method of inkjet printing is as follows.

 The information carrier A is placed opposite the printing plate B / Fig. 1/ with a smooth smooth surface C. A layer of paint D is applied to the form.

 A series of light, for example, laser, E pulses is directed to each given point of the paint layer. At the medium boundary, paint - the surface of the mold under the influence of each laser radiation pulse, a light-hydraulic effect occurs. This effect is characterized by the release of tremendous energy in an insignificant amount of paint. Under the action of the first pulse of the series, a light-hydraulic effect occurs in the paint directly at the surface of the mold. Under the influence of each subsequent pulse, the zone of the appearance of the photohydraulic effect is more and more moving away from the surface of the mold. The acoustic pulse arising from each light-hydraulic effect will be directed towards the carrier A. Under the action of a series of successive acoustic pulses arising under the action of a series of laser radiation pulses, a channel appears in the paint layer D for a short time, through which a drop of paint flies out of the paint layer and is transferred to carrier A. Thus, due to the total effect on the paint layer D of a series of low-power laser pulses, a powerful total acoustic pulse arises, magnitude on which is achievable only when subjected to a predetermined point of the paint layer powerful laser pulse. Depending on the viscosity of the ink and the thickness of the ink layer, in order to obtain a powerful total acoustic impulse, the corresponding duration, amplitude, repetition rate of low-power impulses, as well as their number in the series, are established. Figure 1 shows the possibility of exposure to all points of the printed form by a series of pulses of laser radiation directed from a single source.

 The process described above for each given point of the paint layer will not change when exposed to these points by a series of low-power pulses from independent sources / Fig. 2. /. To implement the proposed method of inkjet printing, it is necessary to send to each given point of the ink layer a series of low-power pulses having certain parameters depending on the physical properties of the ink: duration, amplitude, pulse repetition rate, as well as their number in the series.

 The proposed printing device comprises a printing form 2 located opposite the information carrier 1, a means 3 for applying ink to a form 2, a means 4 for generating pulses of light radiation and a means 5 for focusing these pulses on predetermined points of the ink layer on the form 2, exciting light-hydraulic at these points the effect and ejection of droplets 6 of the ink onto the carrier 1. The printing plate 2 can be made in the form of an endless ribbon 7/3 / of a material transparent to radiation pulses of a given wavelength.

 The means 3 for applying paint to the mold contains rotating rollers 8 and 9, transferring the paint from the container 10 to the surface of the mold 2. The rotation drives of the rollers 8 and 9 of the endless tape 7 and the carrier movement are not shown in FIG. 3.

 The means 4 for generating pulses of light / laser / radiation is configured to generate a series of pulses and comprises a device 11 for changing the amplitude of the pulses in a series, a device 12 for changing the duration of the pulses, a device 13 for changing the duty cycle of the pulses, device 14 for changing the number of pulses in a series.

 The means 5 for focusing laser pulses to predetermined points of the ink layer contains a focusing device 15 and a mechanism 16 for deflecting the focused beam across the printing plate 2, made, for example, in the form of a prism 17 rotating with a drive / not shown in figure 3 / prism 17 with mirror faces 18 .

 The proposed printing device operates as follows. When moving an endless tape 7 with a paint layer applied to its surface facing the carrier 1 and simultaneously moving the carrier 1 synchronously with it, the means 4 for generating laser pulses emits a series of pulses of a given amplitude, duration, duty cycle and number of pulses in a series. The movement of the tape 7 and the operation of the means 4 are synchronized with the rotation of the prism 17 so as to be able to act on any given point located on any line drawn across the surface of the form / line /. At certain positions of the prism 17, 4 series of pulses generated by the means fall, during its rotation, to the given points on the lines of the form.

 When a series of pulses hits each given point on the surface of form 2 in the paint layer at the place where the beam falls, a series of light-hydraulic effects moving away from the surface of the form occurs, causing a series of acoustic pulses following one after another, creating a channel for a short time at a given point of the paint layer and emitting him a drop of paint on the media.

 The set of droplets of paint that has fallen onto the carrier forms an image on it.

 The operation of the printing device will not fundamentally change if the transfer of ink droplets from each line on the surface of the form will be carried out not from one means 4, but from many such means forming a line of laser pulse emitters.

Industrial applicability
The inkjet printing method and the printing device are intended for visual display with high resolution and speed of text and graphic information on any type of media with minimum energy costs for transferring ink droplets from the form onto the medium and the minimum power of pulsed light sources.

Claims (4)

 1. The method of inkjet printing, which consists in placing the information carrier opposite the printing form with a smooth smooth surface, applying a continuous uniform layer of paint on this surface, exposing the given points of the ink layer to light pulses, generating a light-hydraulic effect at the indicated points in the ink layer, and each of these points of the acoustic pulse for transferring droplets of paint from them to the carrier, characterized in that the photohydraulic effect at each given point of excitation t repeatedly, which at each given point sequentially sent the series of light pulses.  2. The printing method according to claim 1, characterized in that the amplitude and duration of each pulse of light radiation of the series, their duty cycle and the number of pulses in the series are set for the coordinated impact on each given point of the ink layer of all acoustic pulses that occur during sequential excitation in each of these points are a series of light-hydraulic effects.  3. A printing device comprising a printing form placed opposite the information carrier, means for applying ink to the form, means for generating radiation pulses, and means for focusing these pulses on predetermined points of the ink layer on the form for ejecting paint droplets from them, characterized in that the means for generating pulses of light radiation, it is configured to generate a series of pulses, and means for focusing pulses is configured to direct to each given point paint layer of one series of these pulses to excite at given points a series of light-hydraulic effects and the occurrence of a series of acoustic pulses in them.  4. The printing device according to claim 3, characterized in that the means for generating a series of pulses of light radiation comprises devices for changing the amplitude of the pulses in the series, their duration, duty cycle and the number of pulses in the series for influencing the given points of the ink layer with the maximum total acoustic pulse at minimum power means for generating light pulses.

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