SU1024952A1 - Device for monitoring temporal process - Google Patents

Abstract

1. A DEVICE FOR REGISTRATION OF TIME PROCESSES containing blocks for fixing the beginning and end of parameter changes, connected to the sensor or the beginning and end of parameter changes, electronic clock, unit for recording and displaying information, connected to information sensors of process parameters This is due to the fact that, in order to expand the functional possibilities, it is equipped with a temporal information storing unit consisting of V) number cells, each of which includes vn number lines, where c-numbers monitored process parameters, am is the maximum number of cells changing the time so the nature of any parameter by the address generation blocks connected between the beginning and the end fixing blocks of the parameters and the corresponding numeric 1 and 1 memory cells of the polling generator, adder and operative sampling block, the block operative sampling is connected to the inputs of the address generation blocks, the fixing blocks of the beginning and the end of the parameter change, and the polling generator, the output of which is connected to the clock input m blocks formirs Vani, The discharge outlets Lek e r ronnyh hours connected to data inputs of the recording unit and the display information storage unit and, overall yields numerical lines which directly and through su№4at6r connected to the recording unit and the display inforglatsii. 2. The device according to A.1., The fact that each block of fixing the beginning and end of the parameter change contains two igchulsov generators, the inputs of which are connected respectively to the beginning and end sensors of the Parameter Change, and two triggers, the single inputs of which are connected to the outputs of the formulate (O pulse,. 3, Device according to Claims 1 and 2, whether or not each formation block contains an assembly, 3 inputs of which are connected to the outputs of the flip-flops corresponding to the first fixation block parameter and with the output of the operative sampling block, a recording trigger whose single input is connected to the output; to, a matching circuit, the first input 4 CO O1 of which is connected to the output of the recording trigger, the second input to the output of the poll generator, and the input to the input of the trigger write trigger and the onipoca input of the corresponding memory block, IsP memory, as well as successively connected transition counters and a decoder, while the connection of the trigger of the connection is connected with the counting input of the counter of transitions and the reset inputs of the trigger block of the fixation and end I The change of the parameters; and the output of the decoder is connected to the address buses of the numeric rulers of the corresponding -number cell, memory unit.

Description

The invention relates to instrumentation and can be used in particular for multiple automatic registration in time of multiple multiparametric time-based heat and power processes. A device is known for registering in time a sequence and beginning of periodic processes, which contains a fixation of the time of each process with electroswitches, batched via a set of relays, a register of the studied perirdictional processes. This device allows you to define / for example; the root cause of the development of protection at thermal power plants and the picture of the development and elimination of the accident. The main disadvantages of this technical solution are the impossibility of determining the duration of periodic processes, which is necessary when analyzing complex heat and power processes, as well as the impossibility of multiple processes registration. It is also known a device for recording time periods of periodic processes containing blocks of fixing the beginning and end changes of parameters; Connected with sensors of beginning and end of changes of parameters; electric clock; unit of registration and displayed and information connected to information sensors of steam, process meters, 2 J The deficiency of the specified device includes a limited scope due to the one-time registration at the beginning and end of the periodic process, and the inability to automatically determine the numerical value of the process duration. The purpose of the invention is to expand the functional capabilities by. multiple registration of any multivariable temporary heat and power processes with automatic selection and determination of the duration of each section; change process parameters. The goal is achieved by the fact that a device for registering temporary processes, containing a fixation of the beginning and end, is changed. NIN parameters, connected to the sensors of the beginning and end of the change of parameters of the electronic clock, the register and display unit, connected to the information sensors {parameters of the technological process, the analog inputs of which are connected to the information sensors of the parameters, are additionally equipped with automatic shaping, control generator, block commemoration consisting of. numeric cells, each of which includes W numeric bars, the total outputs of which are directly and through. the adder is connected to the recording and display unit, and a selective sampling, and as {DYY the fixing block of the beginning and end of the parameter change contains the first and second drivers connected to the single inputs of the start and end fixation triggers, the unit outputs of which are connected to two inputs of the block automatically generating an address, each of: the “x” attribute contains an assembly connected to the single My recording trigger input, a single output that connects to the first one by the input of the coincidence circuit, the first reset bus start and end igger, with counting inputs of a binary transition counter connected via a decoder to address lines of numerical lines of the corresponding number cell of the memory unit, to which information buses parallel and concurrently. responsibly connected unit. the electronic binary decimal clock outputs, to the common read buses of the record of each numerical cell and to the zero input of the corresponding write trigger — the output of the corresponding coincidence circuit connected by the second input to the output of the poll generator, and the control outputs of the operational sampling block are connected to the third input of each assembly blocks of automatic generation of addresses, the input of the polling generator and the second bus reset triggers fixing the beginning and end. Yes, FIG. 1 shows a block diagram of a device for registering temporary processes; in fig ;. 2 is a generalized graph of the change of one of the parameters of the START-UP process of the power unit, which explains the operation of the device; The device for recording time processes contains blocks 1 Fixed AIV of the beginning and end of the change of parameter meters intended for short-time; Variable memorization of the signals for the beginning and end of the nature of the change in the process parameters for each of the h channels; | Registration registration multiparameter | Go technological process. Each | BLLBk 1 fixing the beginning and end of the change of the pa | ammeter contains the first and three shapers 2 and 3 connected to the single ai inputs of the start and end triggers 4 and 5. The formers 2 and 3 serve to receive and generate impulses from the signals from sensors A to the beginning and yes: end Achs where 4 1.2 ... m), which can be, for example, the logic unit of the discrete control of the airblock, and tomato-ized control systems etc. The triggers 4 and 5 of the beginning and the end of the use are used to memorize the pulses coming from the first and second formers 2 and 3. Their single outputs connect the two inputs of the automatic address generation unit 6. The automatic address formation blocks 6 serve to select the addresses of the lines of correspondence with the numerical cells of the memory block 7 and form a read-write signal. Each block b includes an assembly 8, two inputs of which are connected to the outputs of flip-flops 4 and 5 on, tal and end, flip-flop 9, iChema 10 matches, a binary counter 11 transitions and a decoder 12. The output of the 8 is used. for isolating the three signals and connected to the single input of the record trigger 9, allowing the generated signal to read the record. A single output of record trigger 9 is connected to a first input of a matching circuit 10, connected by a second input it to an output. generator 13 poll. A single output of record trigger 9 is connected to the first reset bus of start triggers 4 and 5 and a pin and to a counting input of a double transition counter 11, which is designed to count the points at which the parameter changes the character, and therefore to form a binary, numeric address code the rulers in the corresponding numerical cell of the storage unit 7, with address buses of which it is connected via the decoder 12. The polling generator 13 is used for polling through the circuit 10 the coincidence state of the triggers 9 of the recording of the blocks 6 address, and the frequency of its operation is determined by the time it takes for the memory unit 7 to be accessed during the read operation — the write. The memory unit 7 serves for recording and storing the binary-decimal code of the current time determined by the time points of the nature of the change of any of the parameters; technological process. It has Y) numerical cells, where m is the number of registered parameters. In each number cell there are m number lines, where vn is the maximum number of temporal points of the nature of a particular pair of meters. The number of bits for each chi; spruce die-casting corresponds to the size of electronic binary-ten hours 14, the single outputs of which are parallel and respectively connected to the information buses of all numerical lines of the memory block 7. For general readout tires, a record of CHSILOV22 cells of the memory unit 7 and to zero ones: the inputs of the trigger 9 of the record are followed by the outputs of the corresponding circuit 10 of the circuit. General outputs iacex Number lines of block 7. remember; directly and through the adder 15 are connected to the block 16 of registration and display of information. Electronic. binary-decimal hours 14 are designed and working out the current time. The size and accuracy of the clock is 14 oittdeduced by the necessary accuracy of fixing the parameters of technological processes. The adder 15 serves the length of the automatic calculation of the unit V: time interval changes in the parameters of the technological process: in the process of processing and analyzing the formation information. Block 16 of registration and display; Information razneniya is intended for: registration of both analog and digital information. The analog inputs of block 16 are connected to sensors with sensors D, the process parameters, and the digital inputs with electronic leads: dual-ten hours 14, with outputs cy cy4 15 and block 7. The operative sampling unit 17 is used for automatic processing and analysis of the obtained information by blocking block 1 of fixing the beginning and end of the parameter change, affecting, block B of the automatic formation of the address and on the polling generator 113. It is controlled by the operator (O and connected to; the third; assembly input; 8, b by the polling generator 13 and the second reset bus of triggers 4 and 5 of the beginning and end of each block b. Automatic generation of eutres. The principle of operation is summarized of the parameters of the start-up process f of the power unit of FIG. 2, where X is a function of the time argument tv. As can be seen from the graph, the characterization of the parameter on the time interv, shafts-b-te, ta-t, .- ,, tk- 2.tk-1 is different, which is equivalent to repeated interruption of a monotonous process. The behavior of napaKieT.pa occurs at points-itxt, ..., c-- which must be fixed, recorded and stored in the device’s S memory, with all points except t and bk being simultaneously the end of one interval and However, the double value of the point must be confirmed by the signal of the end sensor and the start sensor and recorded in the memory device. Therefore, the number of numerical lines is respectively: wi 2k-2. Automatic finding of the duration -., Of the time interval t -bot a Н, etc. carried out at the stage of processing and analyzing information. : Consecutively: flamlm by referring to one of the numerical arrays of block 7 to store memory. The device for recording time processes operates in two main modes, in the reception-registration mode and in the information analysis-processing mode. In the initial state or when the device is turned on, the fixing unit 1, the start and end of the parameter change, is blocked by applying a inhibitory signal to the second reset bus of the start and end triggers 4 and 5. The flip-flops 9 records, the junction count 11 transitions and the adder 15 are in the zero state. On the generator 13 of the survey filed prohibitory signal. The electronic clock 14 can operate in two modes: continuous and periodic. In the continuous mode, the electronic clock shows the current time via the decoding and display units of the recording and display unit 16. During periodic operation, the electronic clock is in zero condition. In this case, setting the clock. as well as their correction in continuous mode when the device is turned on. Analog information recorders of block 16 are disabled. When run. The device for registering time processes is implemented by the KOP7 response of the electronic clock 14, removes the blocking from the fixing blocks 1 at the beginning and the end of the parameter change, fully activates the recording and display unit 1, and resolves the interrogation generator 13. In the future, the device operates in the mode of receiving signals from analog information sensors (D, parameters, the nature of the information change from which is displayed as temporary diagrams on recorders, for example, type KSP-4 of the recording unit 16 and display information points in the fixing unit 1 of the beginning and end of the change in the meter come in discrete signals from the sensors D - - D at the beginning and end of the parameter change. Signals from the sensors D start the change of the parameter through the first The driver 2 sets the start fixation trigger 4 to a single state for a certain time due to the automatic address formation unit 6. Transition of the trigger 4. to the single state through the assembly 8 sets the single trigger trigger 9 to allow the passage through the circuit A match of the read-write signal coming from the polling generator 13. The output signal of the coincidence circuit 10 sets the trigger 9 of the recording to the zero state, which realizes {igger 4) fixing the beginning to zero state through of nep-i-hand bus reset, ie simultaneous skid unit to a binary counter 11 transitions, which forms the beginning of the next binary address the parameter change for one of the numerical lines 1 and to the second numerical cell storage unit. The presence of signals from the output of the coincidence circuit 10 and the decoder-12, which enter the read-write address buses, the signals of part-time electronic clock 14 to the inputs, the information buses of the memory unit 7, updates the information on the selected address prescheduled. The recording of the end time of the character change in each numerical range U) -th numerical cell of the memory unit is carried out similarly by a signal from the sensor, the second driver 3, the end locking trigger 5, and the assembly 8, which sets the trigger 9 of the record to one. condition. The mode of analysis and processing of information can be automatic and manual. In the automatic and mode, the fixing blocks of the beginning and end of the parameter changes are blocked, resolution was sent to the Generopopt 13 of the poll, the adder 15 was set to the zero state, and the continuous information recorders of the recording and display unit 16 were turned off. Information inputs, block 7 memorization blocked. The operator makes the selection of one of the blocks 6 for automatically generating the address by applying the generation of request pulses, incoming to the third input of the assembly 8, from the output of the operative sampling block 17. The frequency of the request pulses, which is less than the frequency of the polling generator 13, while the trigger 9 of the record is selected by the Horo of the automatic address shaping unit 6 periodically changes its state as during the operation of the fixing unit 1 of the beginning and length. From memorization of the selected odd. For the address, the start address is read in the time code in adder 15 in the additional code, and in the even address (end address in the forward code). readout of information is stopped when installing the counter 11 transitions in a single state, which is signaled to the operator. In the manual mode of analysis and processing of information, the device works Similarly, the difference is that single request pulses are sent to the address generation unit 6. Simultaneously with the printing, the time slices are indicated through the block 16. In this way, the invention allows to expand the functional capabilities of the device for. registration of temporary processes.

Claims (3)

1. DEVICE FOR REGISTRATION OF TIME PROCESSES, containing blocks for fixing the beginning and end of parameter changes connected to sensors of the beginning and end of parameter changes, an electronic clock, an information recording and display unit connected to information sensors of the process parameters, other than I mean that, in order to expand the functionality, it’s equipped with a block for storing temporary information, consisting of and numerical cells, each of which includes w numerical rulers, where and is the number of controls parameters of the process, a w is the maximum number of time-varying cells of the nature of a parameter by address generation blocks included between the blocks of fixing the beginning and end of the parameter change and the corresponding number cells of the storage unit by the polling generator, adder, and random access unit, while the sample is connected to the inputs of the address generation blocks, the fixing blocks of the beginning and end of the parameter change and the polling generator, the output of which is connected to the clock inputs of the forming blocks Addresses, the digital outputs of the electronic clock are connected to the information inputs of the information registration and display unit and the storage unit, the general outputs of the number lines of which are directly and via the adder connected to the information registration and display unit. 2. The device according to claim 1, distinguished by the fact that each block for fixing the beginning and end of the parameter change contains two pulse shapers whose inputs are connected respectively to the start sensors ^; at the end of the parameter change, and two triggers, the individual inputs of which are connected to the outputs of the pulse generators, and the reset inputs - with the output of the random access block. 3. The device according to paragraphs 1 and 2, about t Li a y u u with her so that every unit! formation of the address contains an assembly, the inputs of which are connected to the outputs of the triggers of the corresponding block for fixing the beginning and end of the parameter change and with the output of the random access block, a recording trigger, a single input of which is connected to the output of the assembly, a matching circuit, the first input; which is connected to the output of the recording trigger, the second input to the output of the polling generator, and the output to the reset input of the recording trigger and the polling input of the corresponding block. kazapominaniya, as well as sequentially connected transition counters and a decoder, while the output of the Zachisi trigger is connected to the counting input of the transition counter, and taught the end of the reset of the triggers of the latching unit the end of the Parameter change, and the output of the decoder is connected to the address lines of the numerical lines corresponding to ' ^z corresponding to - numeric cell, memorization block. and l 1,024,952 A