SU785847A1 - Device for automatic monitoring of relay systems - Google Patents

Description

one

The invention relates to the field of automation and computer technology, namely, automatic control and regulation systems, and can be used in relay devices for automatic regulation, i.e. in devices that include at least one element with a relay static characteristic. | Q

A device for monitoring relay systems is known, comprising a measuring unit connected through an information processing unit and an OR element to an indicator 1 |

The closest technical solution to the invention is a relay device for automatic control, which contains an actuator covered by the main feedback (pump equipped with

Magnetic actuator) for acting on an adjustable object (tank with liquid) and a measuring element with a hystereic stat of 1 characteristic (electrode sensors installed in the tank at different levels) associated with the control unit (discrete level liquid level signaling devices in the tank 2Ji30

Such a device provides control only of the measuring element, and information on the operation of the executive body of the relay device is not presented. In this case, the operator receives a significant amount of information with insufficient information content of the control.

The aim of the invention is to increase the reliability of control results.

Claims (2)

This goal is achieved by the fact that a device for controlling relay systems, containing a measuring element, the output of which is connected to the input of the executive body, a relay pulse element connected by the input to the output of the executive body, and the indicator, are introduced the OR element, the mass stabilizing element (L , t) the pole, the inputs of which are connected to the output of the measuring element, the first output - to the first input of the OR element, and the second output - through the scaling element to the second. the input of an OR element connected by a third input with an output of a relay pulse element, and an output with an indicator input. FIG. shows a structural diagram of the proposed device; Fig. 2 is a functional diagram of the device for automatic level control. The device (see Fig. 1) contains the executive body 1, the control object 2, the measuring element 3, the control unit 4, the indicator 5, the transmission ratio change node 6, the switching pulse element 7, (n, vn) pole 8, the scaling element, . 9 and the element OR 10. In the device for automatic level control, the actuator 1 is made in the form of an electropump 11 equipped with an amplifier-transforming link — a magnetic starter 12. Object 2 is a reservoir of liquid. Element 3 used electronic sensors installed in a reservoir at various levels, and as (n, w) - terminal8 - elements And 13 and 13a .. The device for automatic level control (figure 2) works as follows . In the initial state, when the liquid level in the reservoir of the object 2 is between the installation levels of the electrode sensors of the element 3 and the signals from the sensor outputs are absent, from the output of element I 13 to indicator 5, for example, a lamp, through element 9, for example, a resistor limited amplitude signal. In this case, the lam pa burns with reduced brightness and informs the operator about the normal level of the liquid. When external disturbance G (1), such as fluid flow from the reservoir, appears and the liquid level drops below the sensor installation level, the lower limit of the operating level at the inputs of the magnetic actuator 12 and the control unit 4 appears from this sensor. At the output of the element 13. The binary (2.2) -wire B signal disappears and the indicator 5 turns off, informing the operator about the liquid level falling in the reservoir of the object 2. At the same time, this signal passes through the magnetic starter 12 to the pump 11 input, it, and through the element 7 to the input of the indicator 5, forced it to work in flashing mode with full brightness and to inform the operator about the work of the pump. When the pump starts, it raises the liquid level in the tank and when the liquid reaches the level below the sensor’s setting of the operating level limit, the last one will work and remove the signal from the input of the element I 13, from the output of which the signal of a reduced value is fed through the element 9 .icator 5, forcing the indicator operating in flashing mode from element 7, to change the brightness from high to low (during periods of pause between pulses) and again to high (during periods of pulses) and inform the operator about the norm The process of filling the reservoir of the object 2 is flown through. When the liquid level reaches (the installation level of the electrode sensor of the upper limit of the operating level, the inputs of the actuator 12 and block 4 receive signals from this sensor. The signal from the sensor of the upper limit of the working level passes to the reset input of the magnetic actuator 12 , remove the signal from the input of the pump 11 and stop it. At the same time, the signal from element 7 is removed, which stops the supply of control pulses and indicator 5. At the output of the And 13 element of the binary (2.2) signaling port B The cash disappears, and at the output of the element And 13, j, appears. At the same time, the indicator 5 operates in flashing mode (before the pump stops, then it lights up exactly with full brightness), informing the operator that the pump 11 has stopped working and that the liquid in the tank has reached the upper limit of the operating level. When the level of the liquid in the tank decreases, the signal from The sensor of the upper limit of the working level is removed, and the indicator 5 starts to burn with a reduced brightness. The device then works in a similar way. Thus, according to the nature of the information provided by the indicator 5, the operator It can unambiguously judge the operating mode of the relay device and monitor the correct execution of the specified algorithm of operation.The operating modes of the indicator indicator lamp 5: low-intensity burning with continuous light, extinction, flashing operation in full brightness, flashing operation in full flashing mode and reduced lightness, fire with even light with full brightness, change of burning brightness to reduced - the following operating modes of the relay device correspond: the presence of a normal liquid level in the tank between the upper and lower limits of the operating level, a decrease in the level of the liquid in the tank below the sensor installation level of the lower limit of the operating level, shutdown and start of the pump, the normal flow of the tank filling process (the liquid level increased above the sensor installation level of the lower limit of the operating level), the achievement of the liquid level of the installation of the sensor top 1) p (-to 1A working level and shutdown of the caslo, the decrease in the level of the liquid when emptying the tank below the level of installation of the sensor top its limit of the working level and its location in the range between the upper and lower limits of the working level. Compared with the known devices, the proposed device simplifies remote control over the operation of the device by reducing the amount of information presented while increasing its information content and optimizes the interaction of the man-relay device-adjustable object Formula of the invention Device for automatic control of relay systems containing a measuring element, the output of which is connected to the input of the actuator, and a relay pulse element connected in one to the output of the executive body, and an indicator, characterized in that, in order to increase the reliability of the control results, the device has an OR element, a scaling element and (n, un) a pole, whose inputs are connected to the output of the measuring element, the first output is connected to the first the input of the element OR, and the second output through the element of scaling to the second input of the element OR, connected by the third input to the output surge element, and the output to the input of the indicator. Sources of information taken into account in the examination 1. The author's certificate of the USSR 484524, cl. G 06 F 15/36, 1974 / 2. Клюев А, С. Two-position automatic controllers and their setting. M., Energie, p. 48-51 (prototype.). 2 ---- (rig .- /