SU637129A1 - Bag filter automatic control arrangement - Google Patents

Claims (2)

(54) DEVICE FOR AUTOMATIC CONTROL OF HOSE FILTER1, measuring nozzles 3 and 4, made in the form of laminar chokes, elements of constant flow 5 and 6, algebraic adder 7, as well as switches 8 and 9, elements of comparison 1О and 11 and amplifiers power 12 and 13 included in the command block 14. The device for automatic control of a bag filter works as follows. The dust-laden gas enters the bag filter 1 and, after cleaning, emits air into the atmosphere through the ventilation chamber. 2. The dust caught by the bag filter 1 increases its hydraulic resistance (pressure drop dP on the filter cloth). Through measuring nozzles 3 and 4, filled in the form of laminar chokes, elemeit1s1 of constant flow rate 5 and 6 provide constant, independent of their compressed air pressure (or any inert gas), costs. Tracing air flow (or inert gas) through the measuring nozzles 3 and 4 eliminates their clogging. When the gas to be cleaned is not supplied through a bag filter 1, the settings of the CONSTANT 1 FLOW 5 and 6 ensure that the pressures before the measuring nozzles 3 and 4 are equal. The input pressures of the algebraic adder 7 are identical, which corresponds to zero pressure drop on the filter cloth; at the same time, the adder delivers a pressure of 0.2 kgf / cm to the command block. During the filtration of the dusty gas, the pressure difference at the input of the algebraic adder 7 changes directly to the hydraulic resistance of the filter cloth. The algebraic adder 7 converts the pressure drop across the bag filter 1 into a linearly varying standard output signal (0.2-1.0 kgf / cm). The linear static characteristic of the filter material contamination meter makes it possible to significantly improve the performance of the device. The output of the algebraic adder 7 is fed to the input of the command unit 14 assembled on the USEPPA elements. The setting units 8 and 9 define the range for maintaining optimal pressure drops; minimalyugi D Pfj, and maximal. respectively. As long as the output pressure of the algebraic adder 7 remains within the specified limits, the elements of comparison 1O and 11 are in the initial position, and the command signals at the output of power amplifiers 12 and 13 PB, and PB, are equal to O. Filtering is in progress. At the moment when the output signal of the algebraic adder 7 reaches the specified maximum value d Rupah (the filtering material has penetrated above the permissible limit), the comparison element 11 generates a signal equal to 1 (1.0 kgf / cm) supplied through the power amplifier 13 to the executive mechanism bag filter regeneration systems 1. The regeneration process has begun. When the output signal of the algebraic adder 7 is lower than the specified value AR, which corresponds to a sleeve breakthrough, the element of comparison 10 generates a signal equal to 1 (1.0 kgf / cm) coming through the power amplifier 12 to the actuator of the emergency filter system . Apparatus of the Invention A device for automatic control of a bag filter comprising a command block and a filter contamination sensor whose output is connected to the input of the command block, characterized in that, in order to improve the quality of control, the filter sensor contaminant contains two constant air flow elements , an algebraic adder and measuring nozzles fitted with laminar throttles, the output of each constant-flow element being connected to the corresponding measurement. and a set of algebraic adders. , Sources of information taken into account in the examination: 1, Copyright certificate N ° 498775, cl. At 01 T. 29/10, 1971. //  i I n . f 11L s 1 :