SU927812A1 - Device for automatically detecting completion of reesterification reaction - Google Patents

Description

This invention relates to the automation of polymerization processes and can be used in the manufacture of alkyd resins.

A device for automatically determining the termination of the transesterification reaction is known, comprising conductometric sensors, a distribution unit, a converter, an adder, a polarity digitizer, a logic unit, and a drive ll.

The known device is characterized by limited possibilities with regard to the accuracy of determining the end of the transesterification reaction and has a low response rate due to the use of an analog method of presenting and processing information.

The closest to the invention to the technical essence is a device for determining the end of the transesterification reaction during the production of artificial resins, which contains a multi-channel switching device connected to the polling unit (control unit) and connected between the sensors and the voltage-to-voltage converter. Switching the device and the voltage-to-pulse converter are a multi-channel converter. The output of the voltage converter is connected to the first accumulator for the current values of conductivity and through vectil with the second accumulator for the value of conductivity obtained at the previous time. Device

10 also contains an adder, to the one input of which the output is output. to another, the output of the second accumulator, the output of the adder is connected to an element sensitive to changes in electrical conductivity, which is connected to a unit that reacts to a change in conductivity (logical analysis unit) that triggers the alarm, and

20 by a valve through which the current values of conductivity fall into the second drive I.

However, the device characterizes 25 seconds - Not sufficiently high accuracy in determining the end of the transesterification reaction, since the output of the result of the analysis of the values of electrical conductivity occurs with a delay,

Claims (2)

30 which is due to the use of the method of sequential storing and comparison of measurement results. The purpose of the invention is to improve the accuracy of determining the end of the transesterification reaction. This goal is achieved by the fact that the device dp automatically determines the end of the transesterification reaction, which contains a control unit whose output is connected to the inputs of a logic analysis unit and a multichannel resistance-frequency converter and conductometric sensors whose outputs are connected to the inputs of a multichannel resistance-frequency converter equipped with first and second elements And a reversible counter, with the outputs of the multichannel resistance-frequency converter and the control unit oedineny through the first and second AND gates to inputs of a reversible counter and the output of the reversible counter is connected to an input of the logic analysis unit, the drawing shows a device block diagram. The device contains conductometric sensors 1, a multichannel converter 2 resistance-frequency, control unit 3, information processing unit 4, containing the first 5 and second AND elements, and a reversible counter 7, logical analysis unit 8 and device output 9. The device works as follows. Cip-Talas from conductometric sensors 1 with a quantization frequency determined by the control unit 3 are fed to a multi-channel resistance-frequency converter 2, where they are converted to a pulse frequency. Under the control of the signal supplied from the control unit 3 to the input of the first element I 5, the pulses from the multichannel converter 2 through the first element I 5 to go to the summing input of the reversing counter 7. Thus, the number of pulses stored in the reversing counter 7, proportional to the resistance value of the reaction mass measured with the help of the conductometric sensor 1. At the next time point, the signals from the multichannel converter 2 through the second element And 6 under the control of the signal from the control unit 3 stumbles on the input of the second element a and b are supplied to the input of down counter vychitayu14y 7. Si- information from entering the subtracting input of down counter 7 compares it with the stored previous value. At the time when the subsequent value reaches a value equal to the previous value, the output of the reversible counter 7 receives a signal at the input of the logical analysis unit 8. The results of the comparison in the form of overflow pulses are transmitted to the logical analysis unit 8, which records the fact of equality or increase in the resistance of the reaction mass, which unambiguously indicates the passage of the peraterification reaction, performs logical protection against accidental interference, and issues a signal on output 9 at the command of the control unit 3 the operator or performs the corresponding shift in the automatic process control system when the input signal passes through the extreme value. The use of the proposed device can reduce the synthesis time of alkyd resins by an average of 1.5 hours, which allows an increase in the production of alkyd resins from existing equipment. Apparatus of the Invention A device for automatically determining the end of the transesterification reaction, comprising a control unit, the output of which is connected to the inputs of a logic analysis unit and a multichannel resistance-frequency converter, conductometric sensors, the outputs of which are connected to the inputs of a multi-channel converter - resistance-frequency, characterized in that the purpose of improving the accuracy of determining the end of the transesterification reaction, it is equipped with the first and second elements AND and a reversible ICOM, and outputs the multichannel transducer soprotivleniechastota and control unit connected via the first and second AND gates to inputs of a reversible counter and the output of the reversible counter is connected to an input of the logic analysis unit. Sources of information taken into account in the examination 1. The author's certificate of the USSR 279946, G 05 D 27/00, 1967. 2. The patent of Germany No. 2035109, cl. 39 in 41/98, published 1974 (prototype).