CS269261B1 - Printed lamella with heat resistors - Google Patents

Abstract

The solution relates to the field of leather machinery and equipment for tanneries. The problem of printing characters or patterns on leather is solved, especially for the needs of electronic leather measuring machines. The essence of the solution lies in the fact that a heating resistor in the form of a thin layer is applied either to the printing edge of the printing plate or to the surface of the printing plate just below its printing edge. The solution can be used in the field of leather.

Description

The invention relates to a printing plate with heated, firmly applied resistors for printing colored lines on leather and similar materials.

Various characters and data are printed on leather and similar materials using wax inks applied to one side of a paper or other foil and hot printing types in the shape of the desired character or data, which are pressed onto the leather to be printed through a foil with ink. The wax ink melts from the foil in the shape of the desired character, penetrates the leather fibers when hot, and thus creates the desired image of the character or data on the leather. This principle is advantageously used when marking leather with numbers determining their area. Numbers consisting of seven lines, known for example from seven-segment digital displays, are printed either mechanically, in which case the hot lamellas are mechanically pushed out of the plane so as to create the desired number, or the desired number is created by rapid electrical heating of resistors arranged in the shape of seven-segment numbers. Only the resistor that is hot is printed through the foil with wax ink. These resistors are created in two ways. Either a thin resistor strip is stretched through two holes in a heat-resistant plate so that a narrow area is created on one side of the plate, forming one of the segments of the digit, or, more modernly, a heating resistor is created on a ceramic plate using a technology common in the production of hybrid integrated circuits, by screen-printing a special paste onto the corundum plate at the places where the resistors are to be created. By firing in an oven, resistors are then created from the paste in the form of a thin layer firmly adhering to the corundum plate. The last two methods described have the advantage over the mechanical method in that the printer constructed from them has no moving mechanical parts, the selection of the desired digit is done only by electrically switching on the relevant heating resistors. However, their disadvantage is that the resistors protrude only very slightly above the plane of the plate, so printing is done exclusively by melting the wax ink. However, to achieve a perfect print, in addition to temperature, pressure is also needed to press the melted wax ink into the leather surface. Pressure during printing is especially necessary for leathers with a fibrous or hairy surface.

The above disadvantages are eliminated by the printing plate according to the invention, the essence of which lies in the fact that a heating resistor in the form of a thin layer is applied either to the printing edge of the printing plate or to the surface of the printing plate just below its printing edge.

The progress achieved by the invention lies in the fact that the printing plates allow printing numbers on leather with the selection of the desired number only by electrically switching on the relevant heating resistors simultaneously with the application of mechanical pressure at the printing location.

The drawing shows a printing plate in Fig. 1 with a heating resistor applied directly to the printing edge and in Fig. 2 with a heating resistor just along the printing edge.

The printing plate 1 is formed by a rectangular or square plate made of ceramic material. The printing edge 2 of the printing plate χ is heated by a heating resistor 2, which is applied by thick-film technology, known from the technique of hybrid integrated circuits, either directly to the printing edge 2 or closely along it on the surface χ of the printing plate χ. On both surfaces χ of the printing plate χ, there are also lead conductors, which are not shown for simplicity.

During printing, the printing edge 2 of the printing plate χ is heated by passing an electric current through the heating resistor 2 and is pressed against the leather with suitable pressure through the foil with the wax ink. The heat of the printing edge 2 heats the wax ink through the foil, which melts at the heating point and colors the leather. The pressure of the printing edge 2 causes the ink to firmly anchor into the leather surface. This creates a durable color transfer of the printing edge 2 with sharp edges even on leather with a fibrous surface. Since the heating resistor 2 is directly applied to the well-thermally conductive ceramic of the printing plate χ, the heating of the printing edge 2 takes only fractions of a second. The cooling of the printing edge 2 ^is also very fast, which is advantageous when printing different numbers in quick succession.

CS 269 261 Bl

The advantages of the arrangement are mainly in achieving appropriate pressure at the printing point, manifested in sharp edges of the print and better anchoring of the ink in the surface and fibrous leather.

In the design with a heating resistor applied to the surface of the printing plate outside the printing edge, which is heated indirectly, a significant advantage is that the heating resistor does not come into mechanical contact with the foil with wax ink and therefore does not suffer from abrasion, which has a very positive effect on its service life.

Claims (1)

SUBJECT OF THE INVENTION A printing plate with heated, firmly applied resistors for printing a colored line on leather and similar materials, which creates a colored line by pressing the hot printing edge onto a foil with hot melt ink and through this foil onto the leather, characterized in that the heating resistor (3) in the form of a thin layer is applied either to the printing edge (2) of the printing plate (1), or to the surface (4) of the printing plate (1) just below its printing edge (2).