SU696419A1 - Parameter monitoring device - Google Patents

Description

one

The invention relates to a field of engineering that solves the problem of collecting discrete information from a sensor for automatically controlling the operation of equipment equipped with an electric drive, in workshops and in sections, with outputting information to punched tape.

A device for monitoring is known, which contains sensors that are connected via a switch to the computing unit, which switches to the object from which the absolute value of the signal l arrives at the given time.

The closest technical solution is a device for controlling parameters, comprising a counter, an OR element, a perforator, a pulse generator, the output of which is connected to the first input of the first element AND, and a switch, the outputs of which are connected to the inputs of sensors 2.

This device is complex and, moreover, it cannot be comprehended.

high reliability of control without the operator.

The purpose of the present invention is to increase the reliability of the control and ul. device by creating a reliable, simple, cost-effective and affordable device for use in enterprises of the enterprises working in automatic (no operator service) mode.

For this, the device contains a proprim logic block and second AND elements, the counter outputs are connected to the first input of the software logic block, the first inputs of the second AND elements and to the second input of the first AND element whose output is connected to the first switch, the first input of the counter is connected to one of the inputs switch, and the second input - to the second input of the switch and x. the first output of the software logic unit, the second output of which and the output of the OR element are connected to the inputs of the perforator, the output of which is connected to the input of the pulse generator, the second inputs and outputs of the second elements AND are connected respectively to the outputs of the counter and to the inputs of the OR element. The device also contains a time sensor, an autonomous power source and a block of manual program input, the output of which and the output of the program logic block are connected to the corresponding inputs of the OR element, and the autonomous power supply input and time setter outputs are connected respectively to the third output and the second software logic input. block. The drawing shows a block diagram of the proposed device. It contains sensors 1 included in a two-dimensional matrix 2, the second element And 3, the switch 4, the generator 5 pulses, per time sensor 6, the program logic unit 7, the perforator 8, 9, the element OR 10, the first element And 11, an autonomous source 12 power supply and block 13 of manual input of programs. The proposed device works as follows. By the time of the polling, block 7 sets switch 4 to zero, counter 9 and turns on punch 8. After the engine punch 8 accelerates, the start time of polling is entered, in hours and minutes, from setpoint 6 to punched tape, and a generator of 5 pulses starts to work, which switches switch 4. Block 7 uses electronic sensor 6 to turn the device on and off from the power supply network, depending on the specified multi-shift operation mode, and periodically organizes sensor polling cycles from. putting this information on punched tape with a time stamp of the survey. In order to preserve the temporal orientation of information, block 7 and master 6 have an autonomous power source 12, which is switched on by block 7. Switch 4 connects groups consisting of six sensors 1, other sensor leads are connected to element 3. At each polling cycle switch 4 generates a pulse which switches the counter 9; the latter determines the sequence number of the AND 3 element. After the completion of switching all the AND 3 elements, the counter 9 bans the AND 11 element on the passage of pulses from the generator 5 to the switch 4 and generates a pulse in block 7 on the end of all polling cycles. This unit turns the perforator 8 off. The device remains operable if there is a sudden (emergency) disconnection of the network, in this case the electronic clock of the setter 6 and the unit 7 is switched to power from an independent power source 12 and therefore stores an execution program. The maximum capacity of the device (the number of units of the equipment taken into account) is determined by the speed of the punch, the number of switch positions and the counter. The grouping of sensors by type is related to the optimization of the mathematical program for processing punched tapes obtained from the device on a computer. The proposed device is made in the form of a PPO-24O portable device, it is economical and can be more widely used to control equipment operation in the conditions of enterprise workshops. Invention 1. A device for controlling parameters, comprising a counter, an OR element, a perforator, a pulse generator, the output of which is connected to the first input of the first element AND, and a switch, the outputs of which are connected to the sensor inputs, characterized in that controlling and simplifying the device, it contains the software logic block and the second And outputs, the counter outputs are connected to the first input of the software logic block, the first inputs of the second And elements and to the second input of the first element And, the output of which is connected to the first input of the switch, the first input of the counter is connected to one of the outputs of the switch, and the second input to the second input of the switch and to the first output of the software logic unit, the second output of which and the output of the OR element are connected to the inputs of the perforator, the output of which is connected to the input of the pulse generator, the second inputs and the outputs of the second elements And are connected respectively to the outputs of the counter and to the inputs of the element OR. 2, The device according to claim 1, of tl and h a - y ya e. With the fact that, in order to increase

neither the reliability of the device, it contains a time sensor, an autonomous power source and a block of manual program input, the output of which and the output of the software logic block are connected to the corresponding inputs of the OR element, and the input of the independent power source and the output of the time sensor are respectively connected to the third output and the second software input logical block.

Sources of information taken into account in the examination

1. Shenbroth I., M. Centralized control of technological processes, MGL., Tosenergoizdat, 1961, p. 32-35.

2. USSR author's certificate number 259488, cl. G 06 F 15/46, 1968.