SU861355A1 - Method of automatic control of synthetic rubber latex coagulation process - Google Patents

Description

(54) AUTOMATIC REGULATED METHOD FOR PRESSING STANDARDS OF LATEX SYNTHETIC COAGULATION The invention relates to automating the coagulation processes and can be used (in the production of synthetic rubber. A method is known for regulating the process of coagulation of a synthetic latex powder that is applied by sweat, and a mixture of sweets is used. sodium chloride and returnable serum acidified with sulfuric acid, consisting in a change in the pH value of the coagulation apparatus in the control system of the concentration of liter particles in the return serum l. The disadvantage of this method is the delay of the regulating effect, which leads to an increase in the time of the transition process and a decrease in the accuracy of maintaining the specified quality of the polymer. The closest to the invention to the technical essence is the method of automatic control of the synthetic rubber latex, carried out by mixing in the apparatus

Claims (1)

KAUCHUKA coagulation of latex with sulfuric acid, which consists in changing the temperature in the coagulation unit depending on the flow rate and the end of the latex 21 The known method is characterized by limited possibilities regarding the higher accuracy of stabilization in Mooney gum rubber due to the presence of disturbances In terms of temperature, at large values, the ature rate in the latex coagulation para- ture is dominated by the formation of small particles, which give a very dense tape that does not have sufficient psiflegity, which makes it difficult an operation of drying the rubber tape processing, is also too small chasgits can be us er grid lentrotlivochnoy machine with care. At low temperatures in the coagulatory apparatus, the crumbs are so large that they stick together. 1) inventive pl og uoBi.oiie ni gochnosgi pgbilizptsii viscosity Mooney rubber. The purpose of Osgahaem is that, in the way of the avomagical regulation of the coagulation process of synthetic rubber latex, carried out when the latex coagulation with sulfuric acid is shifted, the temperature in the coagulation apparatus is corrected depending on the flow rate and latex concentration, the coagulation temperature is corrected depending on the pH value of the feeds in this unit. In this case, the temperature | 1u in the coagulation apparatus can be controlled by changing the flow rate of the return serum, and the pH of the medium in this apparatus can be maintained by varying the flow rate of sulfuric acid supplied to the coagulation apparatus. The figure shows a schematic diagram of an automatic control system for the coagulation of divinylstyrene rubber latex to implement the proposed method, coagulation apparatus 1 receives latex through conduit 2, and sulfuric acid via conduit 3. From apparatus 1, the reaction mixture is directed to electrolanning machine 4, where the fmiteps tape is rubber. The serum infiltrating through the mesh of machine 4 is returned to line 1 via line 5, and is brought out of production via line 6. The latex flow rate is measured by the sensing element 7 and is controlled by the regulator 8 and the regulator 9. The latex concentration is measured using sensor Y. Signals corresponding to the flow rate and latex concentration go to a multiplier 11-separator 11, where the absolute amount of polymer is lagex. The consumption of sulfuric acid is measured by the sensitive element 12 and is controlled by the regulator 13 and the regulator 14, 13 The pH of the medium in apparatus 1 is measured by sensor 15 and stabilized by regulator 16 by affecting the consumption of sulfuric acid through regulator 13, the temperature in apparatus 1 measured by the sensor 17 and adjusted with the aid of the regulator 18 and the effect on the flow rate of the air serum. The flow rate of the last-sensible element 19 is regulated with the aid of the regulator 2O by the influence on the regulator 21, Sishgml, (xxiTuoTci vuations tit) - the amount of polymer in the latex:, H; I of the device 11 enters the task chamber rel. 18, and the correction chamber of this regulator receives a signal from the sensor 15, which is consistent with the current pH value of the device 1, the error signal of the regulator 18 is fed into the regulating chamber 2O, the output of which is connected to the regulator 21, and thereby provides the year Holding in apparatus 1 is a new temperature value. With an increase in the pH of the medium in the apparatus 1, the task to the controller 20 decreases and vice versa. Thus, the regulation of the temperature in apparatus 1 with a correction by the pH of the medium makes it possible to maintain the meter of the formed particles at a given level, which contributes to the stabilization of the quality of rubber. The use of the proposed method allows to reduce the standard deviation of the quality indicator of plastoelasticity of rubber-Mooney viscosity of the polymer by two times, which will increase the durability of rubber products. Claim 1, A method for automatically regulating the coagulation process of synthetic rubber latex carried out when the latex is shifted with sulfuric acid in the coagulation apparatus, which consists in changing the temperature in the coagulation apparatus depending on the flow rate and latex concentration, differing in that in order to improve the accuracy of stabilization of the Mooney rubber viscosity, the temperature in the coagulation apparatus is adjusted depending on the pH value of the medium in this apparatus. 2, the method according to p. 1, about tl and h and y and the fact that the temperature in the coagulation apparatus is controlled by changing the descent of the boetate serum, 3, the method according to claim, 1, and tl and h - shchi and with the fact that the pH of the medium in the coagulation apparatus is supported by changing the flow rate of sulfuric acid supplied to the coagulation apparatus. Sources of information taken into account in the examination 1, USSR Copyright Certificate No. 602507, class C 08 1/15, 197 (. 2, Autocritical certificate CCX.f according to application N 2871528/05, class C C 1/1) 21,11,79,