SU726538A1 - Analyzer of technological process states - Google Patents

Description

The invention relates to the field of instrumentation and can be used to analyze the current states of controlled processes in order to identify identical 'states. $

A device is known for simultaneous monitoring of several values of the same parameter relating to different objects, containing sensors, comparison units and logic elements | C.

. 'The disadvantage of this device is its structural complexity.

The closest in technical essence to the invention is an analyzer of ⁵ states of technological processes, containing an AND-NOT element, an indicator, and in the first and second measuring channels comparison blocks | 2] .. 20

The disadvantage of this device is its low speed.

The purpose of the invention is improving the performance of the analyzer.

This goal is achieved by the fact that in the proposed analyzer in each measuring channel. the keys are entered, the adder and the memory block, the first input of which is connected to the output of the first key of this channel, the second input to the output of the comparison unit and the first control input of the first and second keys of this channel, and the output to the first input of the comparison unit of another channel, the indicator input and the adder input of this channel. The output of the latter is connected to the corresponding input of the NAND element, the output of which is connected to the second control inputs of the first and second keys of each channel. The outputs of the second key of each channel are connected to the second input of the comparison unit of each channel.

The block diagram of the device shown in the drawing.

The device contains two channels 1 and 2, united by AND-3 elements and indicator 4. Indicator 4 has two pointers.

72G538

Each channel contains two keys 5, a comparison unit 6, a memory unit 7, and an adder 8.

The device operates as follows. 5

Signals X ^, Y |, X _? , (for example, in analog form) corresponding to the parameters X and Y from different processes (channels 1 and 2), come through public keys 5. '10

From one process, for example, channel 1, the signal of one of the two parameters (X) is supplied to the comparison unit 6, and the signal of the same parameter (X), but of the other process (channel 2) is fed to the input of the block 15 of memory 7 in another measuring canap, respectively . Similarly, two signals are sent to different channels, corresponding to a different kind of parameters (Y and Y ₂ ). '. 20

The memory unit 7 of each channel captures one of a pair of parameters (X or Y), i.e. signals of one in one and the other in the other, for example, the signal Y in canapes 1 and the signal X ^ in channel 2. At the same time, ²⁵ signals are fixed, continuously for a period. The end of their fixation occurs: ¹ It occurs when the other signal in the pair belonging to the process reaches parity with the setpoint entered in block 30 of comparison 6. The signal of equality is sent to key 5 and to the reading input of memory block 7. Fixed at this point in time the level of the monitored signal is fed to indicator 4 on its indicator 35. In addition, the marked level is fed into the adder 8 as the first term and into the channel of another process to the comparison unit 6 to the input of the automatic input of the settings of another parameter. ” 40 Then, an equivalence search is performed for another parameter in a pair belonging to the second process. Upon detection of equivalence of the central block of the memory block 7 of this channel, 45 new data are automatically entered into the comparison block of the first channel. Consequently, the search levels of 'equivalence' are self-adjusting alternately in different channels, first according to one type of parameter, then according to another. Signals from different processes are equally involved in self-tuning.

The highlighted levels of the second parameter are transferred in the same way to indicator 4 to your pointer and to your adder. Upon repeated detection, it is equal to the value from the corresponding memory block; the second term is supplied. In adders, the values of the levels are subtracted. A decrease in the level differences of the parameter of the same name indicates that identical values of the pair of signals of both objects are approaching the moment. When zero differences are simultaneously achieved, a signal arises at the output of the AND-NOT 3. element. This signal, acting on the second inputs of the keys 5, stops the analyzer. Indicator pointers mark the values of the last levels of signals received from the memory unit - one for parameter X, the other for parameter U.

To start the analyzer one more time, manually enter new derived levels of settings and acknowledge the inhibit signal.

Claims (2)

(54) ANALYZER OF DEVELOPMENT OF TECHNOLOGICAL PROCESSES Each channel contains two keys 5, a comparison block b, a memory block 7 and an adder 8, the device operates as follows. The signals X, U., X, Y (for example, in analog form) corresponding to the parameters X and Y from different processes (channels 1 and 2) are received via the -klong keys 5. From one process, for example, channel 1, the signal is one of two parameters (X) is fed to the comparison block 6, and the signal of the same parameter (X), but of another process (channel 2) is fed to the input of the memory block 7, respectively, in another measuring channel. Similarly, two signals are sent to different channels, corresponding to a different type of parameters (Y. and y) —The memory block 7 of each channel is fixed by one of the pair of parameters (X or Y), i.e. The signals of one in one and the other in another, for example the signal Y in channel 1, and the signal Xn in channel 2. At the same time, the signals are fixed, for some period continuously. The end of their fixation occurs when another signal reaching the pair, belonging to the process, is equal to the setpoint entered in the comparison unit 6. The equality signal goes to the key 5 and to the matching input of the memory block 7, Fixed at this moment in time the signal is fed to indicator 4 at its pointer. In addition, the marked level is fed to the adder 8 as the first term and into the channel of another process to the comparison block 6 at the input of the automatic input of the setpoint of another parameter. Then the search is performed equivalent to another parameter in the pair belonging to the second process. Upon detection of equivalence from the memory block 7 of this channel, new data are automatically entered into the first channel comparison block. Consequently, self-tuning of the levels of search of the equal value occurs alternately in different channels, first by one type of parameters, then by another. Signals from different processes are equally involved in self-tuning. The selected levels of the second parameter are transmitted: similarly, in indicator 4 to their pointer and to their sum. When re-detected is equal to the level from the corresponding block of the unit, the second term is applied. In summers, the level values are absorbed. a smaller difference in the levels of the parameter of the same name indicates an approach to the moment of identical values of a pair of signals of both objects. With the simultaneous achievement of zero differences, a signal appears at the output of the NAND 3. Element. This signal, affecting the second inputs of the keys 5, stops the operation of the analyzer. Indicator indicators mark the values of the latest signal levels supplied by the memory unit — one for parameter X and another for parameter V. For the next launch of the analyzer, new derived set-points are entered manually and acknowledge the inhibit signal. The invention The analyzer of technological processes, containing the element N-NOT, the indicator and the comparison units in the first and second measuring channels, about t. In order to increase the analyzer's speed, keys, an adder and a memory block are entered into each measuring channel, the first input of which is connected to the output of the first: the key of this channel, the second input - to the output of the comparator and the first control passes the first and second keys of this channel, and the output to the first input of the comparison unit of another channel, the indicator input and the input of the adder of this channel, the output of which is connected to the corresponding input of the NAND element whose output is connected to the second control input I give the first and second keys each channel, and outputs the second key for each channel connected to the second input of the comparison block of the channel. Sources of information taken into account in the examination 1.Patent of France No. 2246875, class, GO R 17/02, 1972. 2.Patent of France No. 2228324, PL. G 01 R 17/02, 1971 (prototype).