UA75263C2 - An agent for cleaning the surface of offset strip - Google Patents

Abstract

An agent for cleaning the surface of offset strip which contains 6-7% solution of rubber in petrol, cerezin and polydimethylsiloxane liquid. The agent provides an effective withdrawing paper dust and old paint layers adsorbed on the surface of offset strip in the course of operation. .

Description

Description of the invention

The invention relates to the composition of cleaning agents, in particular in printing production for cleaning 2 surfaces of the offset cloth from paper dust adsorbed during operation and outdated paint based on phenolaldehyde, rosin-maleic, pentaphthalic, alkyd resins, oil, mineral oil, vegetable oil, butyl rubber, oligoether acrylates, oligourethane acrylates, oligoether maleinates, and can also be used for cleaning the surface of rubber and polyurethane paint rollers of roll and sheet letterpress and offset printing machines.

Known means for cleaning the surface from paint, consisting of a hydrocarbon solvent, in particular kerosene, oleic acid, water 2595-o0o ammonia solution |1| and kerosene, or gasoline, or white spirit, or ligroin, oleic acid, water, 2590 parts of a solution of ammonia and pentol |21. These agents remove paint well, based on alkyd resin, oil, mineral oil, vegetable oil, rosin-maleic resin, but with long-term repeated use and the need for frequent replacement of paint, especially in single-color machines 12, when printing multi-color products and using paints from different manufacturers, a persistent contamination of the offset cloth in the form of thin layers of adsorbed outdated previous paint and paper dust.

This leads to a significant deterioration of the transfer of paint and wetting solution, a significant amount of them remains on the surface of the offset cloth and does not transfer to the print. And this, in turn, causes a decrease in the quality of prints, their optical density. Thus, the effectiveness of these cleaning agents decreases.

The closest technical solution, chosen according to the prototype, is a means for cleaning soft elastic surfaces, consisting of 6-795 parts of a solution of rubber in gasoline |Z). It is applied to the surface and effectively removes adsorbed paint based on butyl rubber, mineral oil, vegetable oil, olives, alkyd, phenolaldehyde, rosin-maleic, pentaphthalic resins, but it is not effective enough - paper dust and layers of adsorbed paint based on oligoether acrylates, oligoether maleinates, oligoether ether acrylates, with oligoether urethane maleinates. In addition, after the evaporation of gasoline, a thin film is formed, which must be cleaned with a sticky swab.

This causes damage to the surface and contributes to the premature operation of the offset cloth, namely, the violation of the transfer of ink and wetting solution during the printing process, which is manifested in a decrease in the optical density of the prints. She

The invention is based on the task of changing the composition of the cleaning agent to ensure effective removal of paper dust adsorbed on the surface of the offset cloth during operation and old layers of paint based on phenolaldehyde, rosin-maleic, pentaphthalic, alkyd resins, oil, mineral oil, vegetable oil, butyl rubber, oligoether acrylates, oligourethane acrylates, (U oligoether maleinates and increasing the optical density of prints due to the stabilization of ink transfer and

From a moisturizing solution. -

The essence of the invention in a cleaning agent consisting of a 6-7905-o solution of rubber in gasoline is achieved by additionally introducing ceresin and polydimethylsiloxane liquid with the following ratio of components, wt. 96: "6-795th solution of rubber in gasoline -60-80; t c ceresin -19-35; : » polydimethylsiloxane -1-5. PMO-200A liquid

A comparative analysis of the proposed technical solution with the prototype allows us to conclude that - the proposed tool for cleaning the offset panel has common features with the prototype, namely: it contains a 6-790th solution of rubber in gasoline and is used for cleaning the elastic surface , differs in that it additionally contains ceresin and polydimethylsiloxane liquid. име) The task is to ensure the effective removal of paper dust and old paint layers adsorbed on the surface of the offset sheet in the bo 50 process of operation based on phenolaldehyde, rosin-maleic, pentaphthalic, alkyd resins, oil, mineral oil, vegetable oil, co-butyl rubber, oligoether acrylates, oligourethane acrylates , oligoethermaleinates and increasing the optical density of prints due to the stabilization of the transfer of paint and wetting solution is solved only on the condition that the means for cleaning the elastic surface based on a 6-795 solution of rubber in gasoline additionally contains ceresin and polydimethylsiloxane liquid with the following ratio components, mass 9o: o 6-790th solution of rubber in gasoline -60-80; ko ceresin -19-35; polydimethylsiloxane -1-5. in liquid PMO-200A

Thus, the claimed means for cleaning the surface of the offset panel meets the "novelty" criterion.

The proposed technical solution is illustrated by the following examples. 65 Example 1. The 6th and 795th solutions of rubber in gasoline are pre-prepared by mixing a pre-weighed amount of crushed rubber and gasoline in a mixer with a stirrer at a rotation speed of 80-100 rpm. -D-

until the rubber is completely dissolved in gasoline. Then weigh the necessary amount of components according to the recipe in this ratio of components, mass. 9o: 6th solution of rubber in gasoline -60; 9 ceresin -35; polydimethylsiloxane -5. PMO-200A liquid

They are loaded into a mixer with a stirrer and mixed at a speed of rotation of the stirrer of 80-100 rpm. until complete dissolution of ceresin.

Example 2. The cleaning agent is prepared according to example 1.

The ratio of components is given in table. 1.

Example 3. The cleaning agent is prepared according to example 1. The ratio of components is given in the table. 1.

Example 4. The cleaning agent is prepared according to example 1. The ratio of components is given in the table. 1. t Example 5 (prototype). The cleaning agent is prepared according to example 1 without adding ceresin and polydimethylsiloxane liquid. The ratio of components is given in table. 1.

To evaluate the efficiency of cleaning, offset cloths of Mavzieg Sgeep ATV brands (Hungary) were chosen.

Torah; Riioepikh (Germany), PMN-1 (Russia), Miisap 714 Riiz (USA), Miisap Eso (Germany), before and after their operation for 1 million prints, more than 100 devices in the Riapeia offset sheet printing machine

Magpiapi with a productivity of 500 units/hour. Samples with a size of 48x255 mm were cut out. Samples of used offset canvases were compared with new ones in the viewing booth with diffused lighting Zb0OOlk. The presence of a shade or a difference in color compared to the original color characterized the presence of adsorbed paper dust and outdated paint layers and was determined as unsatisfactory, the absence of a change in color - as satisfactory. with

On the samples of the used offset cloths, a cleaning agent was applied according to the examples given in -:() table. 1. After 10 minutes. the agent was removed according to examples 1-4 - with a dry soft swab, and according to the prototype - it was cleaned with a sticky swab until the agent was completely removed from the surface. Comparison of the color of the surface after cleaning was carried out according to the method described above. The result was taken as the average of all investigated offset panels. со 3о Prints were made in accordance with OST 29.123-90 "Printing inks. 2. The method of obtaining prints "(about permanent conditions of testing)" on the LIP-1 laboratory proof-printing device. For this, the paint "Napytapp Meyom / Oiwei z 6010 Toriy" (Germany) on based on alkyd resin, mineral oil, a derivative of rosin-maleic resin, pigment, naphthenate-cobalt siccative, in the amount of 0.4 g and M moisturizing solution based on the concentrate "Ziaria! (Germany), mixed with tap water in a ratio of 1:10 in the amount of 0.05 g, was mixed in a laboratory mixer with a stirrer for 10 minutes, at a speed of bOrpm/min.

Weighed 0.2 g of the obtained water-paint emulsion of paint and moisturizing solution on a laboratory electronic balance AYU 200 (Achiv, Poland) with an accuracy of 0.001 g and transferred it with a spatula to the rollers of the rolling system of the LP-1 protoprinting device. Rolled out for 15 minutes at a temperature of (24-1) "С. The printing form with 79 was installed in a rolling system and paint was applied to the form along its length. Form c was installed in the first printing apparatus of the LP-1 proof printing device. :z" Fastened the used offset cloth measuring 48x255mm to the bar. Strips of Moi offset paper weighing 1m2 120g and measuring 48x255mm were attached to the second form. The form with paper was installed in the second printing apparatus of the LIP-1 proof printing device. The form with the paint was brought into contact with the offset cloth. Pressure regimes of 20 kg/cm (0.74 MPa), speed 1.5 m/s were set and a print was obtained, imitating the offset principle of contact - from the form to the offset sheet, from the offset sheet to the paper in one 1 pass. d The optical density of prints was determined by a densitometer YuO 19C SgeiadMassey as the arithmetic mean of five parallel experiments for all samples of used offset canvases and examples. me) The results of the measurements are given in table. 2. The value of the optical density of prints characterizes the transfer of ink and wetting solution in the process of printing according to the offset contact principle. The higher the optical density, the more complete the transfer by the offset cloth under the same modes of contact of the paint and the wetting solution.

The analysis of the given data shows that the introduction of ceresin and polydimethylsiloxane liquid into the composition of the cleaning agent effectively removes paper dust and old layers of paint adsorbed on the surface of the offset sheet in the process (F. of operation) and increases the optical density of prints due to the stabilization of the transfer of paint and the moisturizing solution.

Sources of information in 1. Technological instructions for the preparation of working solutions of glue, for the manufacture and operation of color rollers for printing machines. - M.: Art. - 1963. - P. 16. 2. A. p. USSR Mo 952933. MKIZ C 09 O 9/04, C 23 o 5/02. Publ. 1982. 3. P. Miladinov. Useful advice and recipe for everyone. - M.: Legprombtizdat. - 1988. - P. 106. ve

Ratio of components, mass. 95

2814 |in rototite 1. Rubber solution in gasoline: I I in yuyu te 00111118 yuyu 2 Tserevit 00000000 ziv liquid PMO-200A

Table 2

The results of TV POP measurements

Biprototite) (Efficiency of cleaning for 00 satisfactory satisfactory (satisfactory satisfactory |unsatisfactory coloring of the surface of the offset

Optical density of prints, B se

Claims (1)

The formula of the invention g) Means for cleaning the surface of the offset cloth, which contains a 6-7,950th solution of rubber in gasoline, which is distinguished by the fact that it additionally contains ceresin and polydimethylsiloxane liquid PMO-200A with such a ratio of components, wt. 90: Zo o 6-7 90 rubber solution in gasoline 60-80 ceresin 19-35 s polydimethylsiloxane liquid PMO-200A 1-5. IS - Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2006, MZ, 15.03.2006. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. " - a - and 1 ko (e)) Fe ko bo b5