SU711542A1 - Object monitoring device - Google Patents

Description

The invention relates to the field of automation and instrumentation and can be used to monitor the status of technical objects.

A known system of automatic control of a parallel type, containing parallel measuring channels, consisting of series-connected sensors, transducers, devices for comparison, measurement and processing, has high speed [1].

A disadvantage of the known system is its bulkiness caused by the presence of a large number of parallel channels.

A device for monitoring objects containing the first AND elements, a control unit, sensors, the outputs of which are connected via normalizing converters to the first inputs of the comparators and the inputs of the switch, the output of which is connected through an analog-digital converter to the input of a logic unit connected to indication, registration and signaling units, and the source of reference signals [2] is connected to the second inputs of the comparators.

The disadvantages of this device is the low speed.

The aim of the present invention is to improve the performance of the device. '·

This goal is achieved by the fact that the second AND elements, OR elements, distributors and a signal driver are inserted into the device, the output of which is connected to the first input of the control unit and to the first input of the first distributor, and the input to the first output of the control unit and to the first inputs of the first AND elements the second inputs of which and the first inputs of the second AND elements are connected to the corresponding outputs of the second distributor, the inputs connected to the second outputs of the control unit, the second input of which is connected to the output of the OR element, the second inputs and outputs of the first distributor are connected, respectively, to the outputs of the first elements. And to the input of the switch, and the second inputs and outputs of the second elements AND to the outputs of the comparators and to the inputs of the OR element, respectively.

In FIG. 1 shows a block diagram of a device; in FIG. Figure 2 shows time charts explaining its operation. '.

The device contains sensors 1, normalizing converters 2, comparators 3, a source of reference signals 4, second elements AND 5, elements OR 6, a second distributor 7, a control unit 8, the first elements And 9, a switch 10, a first distributor 11, a signal conditioner 12 , analog-to-digital Converter 13, (display unit 14, logical unit 15, registration unit 16 and signaling unit 17.

In FIG. 2 designation of clock pulses 18, the account of the first distributor 19, the output signals of the OR element 20, the output signals of the driver 21, record the address 22, start 23 and stop 24.

A device for monitoring objects works as follows.

The signals of the sensors 1 are fed to the transducers 2, which eliminate the non-linearity of the sensors and lead to the same measurement scale parameters. With the output of the converters 2, the signals are fed to the switch 10 and to the comparators 3. The source 4 generates reference signals - warning levels, which are less in amplitude than the maximum permissible parameter value. For signals exceeding the warning level, comparators 3 are triggered. Using the distributor 7 and the And 5 elements, the signal is polled and searched for in excess of the warning tolerance. After the arrival of the signal "start" '' (see 23 of Fig. 2), the indication and alarm using blocks 14, 16, 17.

If the driver 12 generates a signal and at this time a signal is received from the OR element 6 (which means 5 that during the polling of one channel, the address of the second channel whose signal exceeded the warning tolerance is determined) to the control unit 8 (see 20 of Fig. 2) , then it generates 10 a stop signal (see 24 of Fig. 2), by which the pulse counting by the first distributor stops. On the trailing edge of the pulse from the shaper 12, the control unit 8 generates a pulse "write address ¹ " and "start". The next channel is connected, through which an excess of the warning level was detected using switch 10, to the measurement and processing channel 20. At the same time, using the distributor 7 and the And 5 elements, the next channel is searched, the signal of which has exceeded the warning tolerance. Due to the fact that the search for signals that exceed the highest warning tolerance is performed at a high speed (the period of synchronization pulses is 100-1000.

times There may be less measurement and processing time) during 3D measurement and processing of one signal, in the device for monitoring objects, signals are measured and processed that exceed the warning tolerance without additional time losses.

The use of a device for monitoring fake technical objects will significantly reduce the monitoring time.

the divider starts counting clock pulses (see 19 of Fig. 2) .. When a single signal is detected at the ith output _{t of} comparator 3 through an AND 5 element and an OR 6 element, a signal is input to the control unit 8 (see, 20, Fig. 2). If the driver 12 is in the initial state (does not generate a signal), then the control unit 8 generates a signal “address record” (see 22 of Fig. 2), which, entering elements 9, writes the code from .50 of the distributor 7 to distributor 11. At the same time, a signal from the former 12 is supplied to the distributor 11. , (see 21 figure 2) the duration of which is equal to the time of measurement and processing of one parameter. Thus, the distributor 11 connects the i-th channel using the switch 10 to the analog-to-digital converter 13. Information from the converter 13 is sent to block 15, in which the value of the i-ro signal is compared with its acceptable value. When determining the failure on the i-th channel, registration is carried out,

Claims (3)

The invention relates to the field of automatization and measuring instrumentation and can be used to monitor the state of technical objects. A known system of automatic control of the parallel type, containing parallel measuring channels consisting of successively connected sensors, transducers, comparison, measuring and processing devices, has a high speed of 1. A disadvantage of the known system is its cumbersome, caused by the presence of a large number of EE) allelic channels. A device for controlling objects is known, containing the first elements AND, a control unit, sensors whose outputs through normalizing converters are connected to the first inputs of the comparators and the inputs of the switch, whose output is connected through an analog-digital converter to the logical block connected to the display units, register signals and alarms, and a source of reference signals is connected to the second inputs of the cc 4parators 2. The disadvantage of this device is low speed. The purpose of the present invention is to increase the speed of the device. . The goal is achieved by the introduction of second AND elements, OR elements, distributors and a signal conditioner, the output of which is connected to the first input of the control unit and to the first input of the first distributor, and the input to the first output of the control unit and , the second inputs of which and the first inputs of the second elements I are connected to the corresponding outputs of the second distributor, the inputs connected to the second outputs of the control unit, the second input of which is connected to the output of the elements and OR, a second input and an output of said first distributor are connected respectively to the outputs of the first elements .and switch and to the input and the second input and output elements, and secondly - ksmparatorov to the outputs and to the inputs of OR respectively. FIG. 1 is a block diagram of the device; Fig. 2 shows timing diagrams for its operation. The device includes sensors 1, normalization converters 2, comparators 3, source of reference signals 4, second elements AND 5, elements OR b, second distributor 7, control unit 8 , the first elements And 9, the switch 10, the first distributor 11 / driver of signals A / D converter 1 display unit 14, logic unit 15, register unit 16 and signaling unit 17. In FIG. 2 denotes: sync pulses 18, counting by the first distributor 19, output signals of the element OR 20, Well signals of the former 21, recording of the address 22, start 23 and stop 24. The device for monitoring objects works as follows. Sensor signals 1 are sent to converters 2, which eliminate sensor non-linearity and result in one scale measurement of parameters. With BbixciUOM converters 2, signals are sent to switch 10 and to comparators 3 Source 4 generates reference signals — warning levels that are lower in magnitude valid parameter value. For signals exceeding the warning level, comparators are triggered. 3. With the help of the distributor 7 and And 5 elements, the interrogation and search for the addresses of signals exceeding the warning tolerance is carried out. After the start signal arrives (see 23 of Fig. 2), the distributor starts counting the clock pulses (see 19 of Fig. 2). When detecting a single signal at the i-th output of the comparator 3, through the element 5 and the element OR b, the signal goes to the input control unit 8 (see, 20 fig. 2). If the shaper 12 is in its initial state (not the form of the SiHpyeT signal), the control unit C generates a signal to write the address (see Fig. 25, which, arriving at AND 9 elements, writes the code from the distributor 7 to the distributor 11) The distributor 11 receives a signal from the generator 12. (See 21 of Fig. 2), the duration of which is equal to the time of measurement and processing of one parameter. Thus, the distributor 11 connects the i-th channel with the help of the switch 10 to the analog-to-digital converter 13. Information from the converter 13 is fed to the block 15, in which the i-ro signal is compared with its acceptable value. In determining the failure of the i-th channel, registration, indication and signaling are performed using blocks 14, 16, 17. If the generator 12 generates a signal and at this time a signal is received from the OR element b (which means that during the polling of one channel The address of the second channel is determined, the signal of which exceeded the warning tolerance) to the control unit 8 (see 20, Fig. 2), then it forms a stop signal (see 24, Fig. 2), through which the counting of pulses by the first distributor stops. On the falling edge of the pulse from the imaging unit 12, the control unit 8 generates an impulse address and start recording. The next channel is connected, through which the warning level was exceeded by the switch 10, to the measurement and processing channel. At the same time, with the help of the distributor 7 and the elements of And 5, the next channel is searched for, the signal of which exceeded the warning tolerance. Due to the fact that the search for signals exceeding the warning tolerance is performed at high speed (the period of the clock pulses is 100-1000 times. May be less than the measurement and processing time) during the measurement and processing of a single signal in the device for monitoring objects are measured and processed signals that exceed the warning tolerance, without additional loss of time. The use of the device for control “Complex technical objects will significantly reduce the time control. Claims An object monitoring device containing the first AND elements, a control unit, sensors whose outputs are connected via normalization converters to the first inputs of the comparators and the switch inputs, the output of which is connected to the input of a logic unit connected to display units via an analog-to-digital converter registration and signaling, and a source of reference signals is connected to the second inputs of the comparators, characterized in that, in order to increase the speed of the device, Second elements AND, OR elements, distributors and a signal conditioner, the output of which is connected to the first input of the control unit and to the first input of the first distributor, and input to the first input of the control unit and to the first inputs of the first And elements, the second inputs of which and the first inputs of the second elements And connected to