SU653599A1 - Microclimate parameter monitoring device - Google Patents

Description

The invention relates to automation of technological processes and can be used for automatic centralized control of microclimate parameters in the premises of enterprises for the production of chemical fibers, semiconductor devices, precision instrumentation products and at the stations of the artificial climate - phytotrons.

A device for automatic centralized monitoring and control of various parameters of technological processes is known, comprising primary measuring transducers of parameters connected to the inputs of a switch, to the first output of which are connected serially connected comparison unit whose input is connected to a master unit, a digital converter connected to a control unit , and the recording unit, the inputs of which are connected to the master and control units 1.

In this device, if one of the elements fails, the device stops at the time of its recovery, and the monitoring continuity is interrupted, which reduces the reliability of the system.

The aim of the invention is to increase the reliability of the device.

This is achieved in that the device contains a reversing unit, a malfunction detection unit, the switch is made in the form of a reversible distribution of bodies, the second output of which is connected to the input of the malfunction detection unit, the output of which is connected to the input of the control unit, to the output of which is connected to the master unit and switch input reversing unit.

The drawing shows a block diagram of a device for controlling microclimate parameters.

It consists of primary measuring transducers 1, switch 2, digital converter 3, control unit 4, master unit 5, comparison unit 6, recording unit 7, fault detection unit 8 and reversing unit 9.

The primary transducers 1 are connected to a switch 2, one of the outputs of which is connected to the input of the comparison unit 6 to the other input of which the master unit 5 is connected, the digital input

The converter 3 is connected to the comparison unit 6. The recording unit 7 is connected to the output of the control unit 4, the output of the master unit 5 and the digital converter 3.

The second output of the switch 2 is connected to the fault detection unit 8 of the switch, the output of which is connected to the input of the control unit 4. The outputs of the control unit 4 are connected to the registering unit 7, the digital converter 3 and the reversing unit 9, the outputs of which are connected to the switch 2 and driving unit 5.

The primary measuring transducers of 1 microclimate parameters are resistance thermometers and lithium chloride primary measuring transducers of air humidity. The primary converters 1 are installed at the control objects (in the production premises of the enterprise) and connected with the help of the switch 2 to the device units located in the central control room (operator's room). The communication channel of the primary converters 1 with the central point has a trunk structure in the form of several closed-loop wire lines, and the switch 2 is geographically dispersed and its individual switching elements are located in the production premises in close proximity to the primary converters 1.

Switch 2 is a reversible relay dispersed distributor (see ed. Mon. USSR No. 517917, cl. G 08 C 69/00, 1976), in which, when a pulse is received, alternate primary measuring converters are connected, and the relay is switched on alternately It is possible both from the initial to the terminal and from the terminal to the initial switching element.

Digital converter 3 is designed to convert an analog signal corresponding to the value of the measured parameter to a digital code that is used for comparison with a predetermined digital value of the measured parameter in (comparison amp; 6, which is an adder.

The driver unit 5 is a semi-permanent memory device and serves for storing and reading from it codes corresponding to the nominal values of the monitored parameters according to the signals of the control unit 4 received through the reversing unit 9.

The control unit 4 uses the clock pulses to control all the functional blocks of the device.

synchronization of their work in time, control of their normal functioning.

The fault detection unit 8, by controlling the normal course of the switch 2, generates a signal about the failure of the switching elements to the control unit 4. The fault detection unit 8 contains amplitude discriminators of zero and more than twice the current values in the switching elements.

Reversing unit 9 is designed to reverse the order in which pulses are fed to switch 2 and, therefore, to change the direction of circumference of primary transducers 1, as well as to reverse the order of reading the program from master unit 5 and includes a reversible pulse counter.

The recording unit 7 performs alphanumeric registration of parameters.

The system automatically monitors the microclimate parameters as follows. The driver unit 5, by the command of the control unit 4, outputs to the comparison unit 6 an analog value Uycr. The U input is supplied to the other input of the comparing unit 6 from the switch 2. The difference Uycr and Ux, which characterizes the deviation D Ux of the monitored parameter from the nominal value, is fed to the digital converter 3, which converts the analog value D U; in its digital equivalent. The results are transmitted to the recording unit 7.

The proposed system for automatic control of microclimate parameters can also be used to control parameters. For this, the comparison unit 6 is connected to a regulating device, in which the deviation D UA of the measured parameter from the nominal is compared with the tolerance, and, if necessary, a signal is given to the actuators acting on the measured parameters.

The proposed device for monitoring microclimate parameters allows continuous monitoring and control of the process even in the event of a break in the switching circuits, because, due to the reversibility, the system switches to the reverse order of obeying the polled points, resulting in the loss of information about the parameter status at only one point. control and it is possible to eliminate the fault without interrupting the control process.

Claims (1)

Invention Formula A device for monitoring microclimate parameters, containing primary measurement transducers connected to the inputs of the switch, the first output of which is connected in series with a comparison unit, the input of which is connected to the master unit, a digital converter connected to the control unit, and a recording unit whose inputs connected to a driver unit and a control unit, characterized in that, in order to increase the reliability of the device, it contains a reversing unit, the detection unit is not health, the switch is made in the form of a reversible distributor, the second output of which is connected to the input of the malfunction detection unit, the output of which is connected to the input of the control unit, the output of which is connected to the reversing unit connected to the master unit and the input of the switchboard. Sources of information taken into account in the examination 1. Copyright certificate № 439793, cl. G 05 D 27/02, 1974.1975. t Mt