SU1105865A1 - Device for detecting emergency situations - Google Patents

Abstract

A DEVICE FOR DETECTING EMERGENCY SITUATIONS, containing a group of comparison elements, the first inputs of which are connected to the corresponding inputs of a group of information inputs of the device, the OR element and an indicator, characterized in that, in order to improve the speed of the device, a single vibrator is entered into it, the first and second registers. the first and second digital-to-analog converters, a driver of a constant component of a sweep: voltage and a variable-voltage generator I of a given amplitude and frequency, the inputs of the OR element are connected to the outputs of the comparison group elements, and the output through the single-oscillator - with the device output and the indicator input The first and second inputs of the device are connected respectively to the setup inputs of the first and second registers, the outputs of which are connected respectively to the inputs of the first and second digits x transducers. The first control input of the generator (P alternating voltage of a given amplitude and frequency is connected to the output of the first digital-to-analog converter, the second control input through the sweep DC component is connected to the output of the second digital-analog converter, and the output - with the second inputs of the elements of the group 00 comparison. and SP

Description

The invention is responsive to automated process control systems and can be used in any industry, in particular, in the nuclear power industry, when there are a large number of analog parameters to be monitored and it is necessary to provide automatic data collection and processing. emergency situations at the managed facility. Devices are known based on the method of temporal separation of signals from different sensors in a common communication channel, in which signals of only one single Cl 3 sensor can be moved at a time through a common communication channel. A device with time-frequency separation of signals is known, the communication channels of which transmit sporadically identified signals from multiple independent sources. Since the transmission of signals from independent multiple sources is specifically not organized, it is in principle possible to simultaneously transmit signals from several sensors on a common communication channel, which causes a malfunction of the device. However, with its correct calculation, the probability of such a failure is requiredly low 2. It is also known to interface a computer with analog sensors, which contains a group of zero-organs, the first inputs of which are connected to the corresponding inputs of the first group of device inputs, and the outputs — through a corresponding driver of the group of drivers with their own input of the encoder. In addition, it includes a matching unit, the input of which is connected to the output of the encoder, and the output to the input of the OR element and the first input of the register, the output of which is connected to the first output of the device, and the control input to the control input of the device. The device also contains a conversion start unit, the output of which is connected to the input of a square pulse generator, to the output of which the input of the pulse counter is connected, the output of which is connected to the second input of a group of read amplifiers and through a digital-to-analog converter to the second inputs of zero-organs. The first input of the read amplifier group is connected to the output of the OR element and to the control output of the device, and the output is connected to the second input of the output register GZ. However, the known device is characterized by a speed that is insufficient for the rapid detection of emergency situations, it limits the rate of change of the sweep voltage in order to reduce information distortions in the process of its transmission. Consistent analysis of received messages, including for the purpose of detecting emergency situations, is also associated with significant time effort, which is unacceptable. The purpose of the invention is to increase the speed of the device. This goal is achieved by the fact that a one-shot, first and second inputs are entered into the device for detecting emergency situations containing a group of comparison elements, the first inputs of which are connected to the corresponding inputs of the group of information inputs of the device, the OR element and the indicator. the registers, the first and second digital-to-analog converters, the sweeper constant component of the sweep voltage and the alternating voltage generator of a given amplitude and frequency, the inputs of the OR element are connected to the outputs of the group comparison elements, and the output through the one-oscillator with the device output and the indicator input, The first and second device inputs are connected respectively to the installation inputs of the first and second registers, the outputs of which are connected respectively to the inputs of the first and second digital-a tax converters, the first control input of an alternating voltage generator of a given amplitude and frequency is connected to the output of the first digital-to-analog converter, the second control input through a constant-voltage driver of the sweeping voltage to the output of the second digital-analog converter, and the output from the second inputs of the group comparison elements. The drawing shows the functional diagram of the device. The device contains a group of elements of comparison 1, which produce single pulses when the voltage value coincides at two of their own inputs; the element OR 2, combining the outputs of the elements of comparison 1, one vibrator 3i forming a pulse signal of the required duration at the output when a pulse arrives at its input; indicator 4, which indicates the occurrence of an emergency situation, is the first register 5, which stores the operation code rio amplitude of the variable component of the sweep voltage; a second register 6 storing the mode code of operation with a constant component of the sweep voltage; a first digital-to-analog converter 7, issuing a control voltage, determining the mode of operation according to the amplitude of the variable component of the sweep voltage; the second digital-to-analog converter 8, issuing a control that determines the operating mode on the constant component of the sweep voltage; a constant voltage component generator 9, issuing a constant voltage component, a alternating voltage generator 10 of a given amplitude and frequency, forming an alternating sweep voltage of a given amplitude and frequency. The outputs of all analog sensors, according to the information which identifies the occurrence of emergency situations, are continuously applied through the group of information inputs of the device to the first inputs of their own elements of comparison 1. Their second inputs are connected to the output of the alternating voltage generator 10 of a given amplitude and frequency. The outputs of the elements of comparison 1 are connected to the own inputs of the element OR 2, the output of which is connected to the input of the one-shot 3. The output of the one-shot 3 is connected to the input of the indicator 4 and the output of the device. The first device input is connected to the setup input of the first register 5, the second device input to the setup input of the second register 6. The output of the first register 5 is connected to the input of the first digital-to-analog converter 7, and the output of the second register 6 to the input of the second digital -analog converter 8. The output of the first digital-to-analog converter 7 is connected to the first control input of the generator 10 of an alternating voltage of a given amplitude and frequency, the output of the second digital-to-analog converter 8 is from the input house shaper 9 d.c. the scanning voltage, the output of which is connected to a second control input of generator 10 is an alternating voltage of predetermined amplitude and frequency. The device works as follows. During operation, the control device (for example, a computer) writes, through the first and second device inputs to the first register 5 and the second register 6, codes defining the boundary and width of the parameters corresponding to the emergency situation in the current mode. The first and second digital-to-analog converters 8 convert these codes into proportional values of the voltage code. The constant voltage component 9 of the sweep voltage, based on the second digital-to-analog voltage converter 8 obtained from the output, outputs a voltage, defined as the upper limit of the sweep voltage variation in the current mode. The alternating voltage generator 10 of a given amplitude and frequency, controlled by the voltage from the output of the first D / A converter 7, generates a variable voltage of a given amplitude, frequency, and shape. In addition, under the influence of the voltage from the output of the DC shaper component of the sweep voltage 9, this generator sets the constant component of the output voltage. Offset to the voltage limit corresponding to the beginning of the alarm values of the parameters, and having an amplitude equivalent to the width of the alarm parameters, the output voltage of the alternator 10 alternating voltage of a given amplitude and frequency is fed to the second inputs of the elements of comparison 1. If all the monitored parameters are in allowable limits then in pro

Claims (1)

DEVICE FOR DETECTING EMERGENCY SITUATIONS, containing a group of comparison elements, the first inputs of which are connected to the corresponding inputs of the group of information inputs of the device, an OR element and an indicator, characterized in that, in order to improve the performance of the device, a one-shot, first and second registers, first and a second digital-to-analog converters, a driver of the constant component of the deployment voltage and an alternator; voltage of a given amplitude and frequency, and the inputs of the OR element are connected to the outputs of the group comparison elements, and the output through a single vibrator is connected to the output of the device and the indicator input, the first and second setting inputs of the device are connected respectively to the installation inputs of the first and second registers, the outputs of which are connected respectively the inputs of the first and second digital-to-analog converters, the first control input of an alternating voltage generator of a given amplitude and frequency is connected to the output of the first digital-to-analog a converter, a second control input of the generator through the scanning voltage constant component - with output of the second digital-to-analog converter, and an output - with a second input of the comparison group.