SU121802A1 - Screen printing method and device for implementing the method - Google Patents

Description

Screen printing methods are known which consist in transferring a dye through a prefabricated stencil mold to a receiving surface, for example, on a paper sheet.

The described method differs from the known ones in that the transfer of the dye is carried out under the action of ultrasonic radiation. As a result, labor productivity is improved. The construction of screen-printing machines is simplified by eliminating the nodes that perform the mechanical movement. Devices are provided for carrying out the method.

FIG. 1 is a schematic diagram of an apparatus for screen printing by ultrasonic radiation; in fig. 2 is a schematic diagram of a similar device with a concentrator having a capillary opening for supplying a dye; in fig. 3 is a schematic diagram of a similar device equipped with a means for imparting additional accelerator dye particles.

The proposed screen printing method is as follows. A certain amount of a liquid dye is placed on the flat end of an ultrasonic radiation source concentrator, such as a magnetostrictive vibrator. A stencil plate is placed above the vibrator, and a receptive surface, such as a sheet of paper, is placed above the vibrator. When the vibrator is turned on, the dye particles will be dispersed in the ambient air. The formed aerosol acquires an initial velocity of the order of several m / s and rises above the end face of the concentrator by a distance of several tens of centimeters. In this case, the dye particles are pushed through the stencil-shaped holes and are deposited on the perceiving surface, forming a colorful image on the latter. Kon№ 121802

the figure of the image corresponds to the configuration of the stencil shape.

Magnetostriction can be used as a device for carrying out the method. vibrator, oscillation emitter / (Fig. 1) which is installed on a centered washer 2 of microporous rubber in the vessel 3 with a liquid dye. The vibrator is excited by the magnetic circuit 4 and the excitation coil 5. The dye is poured into the vessel in such a way that its level is from the end of the 6 emitter of vibrations to a distance of 2-3 mm. The wetting of the end is accomplished by the action of capillary forces. A stencil mold 7 and a sensing surface 8 are positioned above the vibrator.

In a modification of the device (Fig. 2), a magnetostriction vibrator P is used, equipped with a hub 10 having an axial capillary hole // for supplying the dye from fitting 12 to the end 13.

The vibrator can be molded in the form of a bent plate 14 (Fig. 3) of barium titanate with a bottom silver electrode 15. The cone vibrator 16 is connected to one of the poles of the DC generator 17. A plate 18 is connected to the opposite pole, placed above the stencil shape made in the form of a rotating drum 19 and the receiving surface 20 unrolled from a roll 21. Under the influence of an electric field between the concentrator 16 and the plate 18, the negatively charged fine dye aerosol acquires additional acceleration direction of the receiving surface. The vibrator is powered by a high-frequency generator 22, for example, of the type UZG-200.

Subject invention

Claims (4)

1. A screen printing method by transferring a dye through a prefabricated stencil shape to a receiving surface, for example, on a paper sheet, characterized in that, in order to increase labor productivity, the transfer of dye is carried out under the action of ultrasonic radiation. 2. A device for carrying out the method according to claim 1, characterized in that it is implemented in the form of a magnetostrictive vibrator, the oscillation emitter of which is loaded into a vessel with a liquid dye placed on one side of the stencil form, on the opposite side of which is the sensing surface. 3. A variation of the device according to claim 2, characterized in that it is made in the form of a magnetostriction vibrator with a concentrator equipped with an axial capillary opening for supplying the dye. 4. Vidoizmenenie device PP. 2 and 3, characterized in that the concentrator is connected to one of the poles of the current source, and a plate placed under the screen form and the receiving surface is connected to the opposite pole.