RU1791153C - Aerosol-jet printer - Google Patents

Abstract

The invention relates to inkjet-type printing devices, in particular to aerosol-ink-type printing devices, and allows to improve print quality. A nozzle plate is inserted between the screens and the panel, which together with the screen forms a channel for supplying aerosols to the zone of constant electrification of the latter by a stream of ions flowing out of the gap, and the nozzles serve as generators of aerosol jets, the deposition of which on the receiving material is controlled by the sign selection signals supplied by the sign perforated electrodes, 4 cpp-crystals, 1 silt.

Description

The invention relates to inkjet-type printing devices, namely, aerosol-ink-type printing devices.

The purpose of the invention is to improve print quality.

The drawing shows an exemplary embodiment of an aerosol-jet type device.

The device comprises a corona type 1 ion source, a screen with a slit 2, a nozzle plate 3, a perforated electrode for selecting a print mark 4, on a paper tape 5 located on a paper support drum b.

The ink aerosol generator 9 consists of a reservoir 8, in the bottom of which a spherical piezoelectric element 10 is hermetically sealed, an ultrasonic ink fountain 11 is enclosed in a tube 12, the outlet of which is connected to a droplet breaker 7, and the latter to a channel formed by a screen 2 and a nozzle plate 3. Device works as follows.

When voltage is applied to the piezoelectric element 10 in the focal plane of the ink layer g 9 poured into the reservoir 8, an ultrasonic fountain 11 arises, which disintegrates into particles of the order of 1 µm and larger droplets. As a result of the passage of the bump 7 under the action of the pressure developing in the tube, the ink aerosol enters the channel formed by the screen 2 and the nozzle plate 3. Electrification of particles occurs when the aerosol encounters a stream of ions flowing from the gap due to the adsorption of the latter on the particles. The charged aerosol then enters the electric field of the nozzle orifice, the diameter of which varies between 0.3-0.6 mm. As a result, an aerosol jet is formed and its initial focusing is in the area of perforation of the print mark selection electrodes. When a positive voltage pulse is applied to this electrode, the aerosol jet is discarded to the nozzle VJ

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howling plate and printing does not occur. When a negative impulse is applied, the aerosol jet passes through the perforated electrode, focuses a second time and reaches the surface of the receiving material, leaving a colorful dot on the latter as a dot.

The print control pulses are supplied by transistor switches, controlled in turn by a character generator (not shown in the diagram).

The aerosol not used for printing is removed from the channel and directed into the reservoir due to the vacuum created near the entrance to the tube 12. Experimental studies of the inventive aerosol-jet printing device have shown that compared to a similar device, it provides higher speed printing (about 150

zn / s), and the print quality of the signs is not inferior to the samples obtained on matrix and thermal inkjet printers (5-10 dots / mm). .

Claims (1)

SUMMARY OF THE INVENTION 1. An aerosol-type printing apparatus comprising an ink aerosol generator, a system for supplying aerosols to the print area and returning them to the reservoir, a corona type ion source with a conductive screen having an ion exit slot, a panel with perforated electrodes for signaling the choice of the print mark and the paper support electrode, in order to improve print quality, it is equipped with a nozzle plate mounted between the screen and the panel in such a way that forms together with the screen a nal to pass the aerosol to the nozzles of the plate.