SU731448A1 - Device for monitoring machine operating modes - Google Patents

Description

The proposed device is designed to control the operating modes of machines, or more precisely, to determine the number of inclusions of their electric motors, and it will be used to control the consumption of the electrode resource (Players and Machines in General.) power, integration capacitors, a counter, fixed and variable resistors and diodes. The disadvantages of the known device are low accuracy of the readings due to the instability of the parameters of the pulses, The most closest to the technical essence to the invention is a device for monitoring operating modes 2. This device contains a source of a monitored signal, a source of power, a trigger CM Rod capacitors, a controlled switch, an electrochemical counter, a divider H | a. voltage, a resistor and a diode. In the comparison circuit of this device, the reference voltage is compared with the voltage of the integrated capacitor. When the device is turned off, the discharge time of this capacitor is determined by the size of the discharge resistor, which cannot be small. Therefore, the device does not allow to register frequent starts of the machine. In addition, the output signal from the Schmidt trigger has an unstable volt-ampere characteristic, which leads to a significant heating and noise recording of the number of starts by an electrochemical counter. The disadvantages of the β-prototype should also include the need for a salivary source of food sources, which makes it suitable for production conditions. The purpose of the invention is to improve the accuracy and simplify the device. The goal is achieved by the stabilization of a nitro. The first integrating capacitor, the divider. The voltages are connected in parallel, and are connected. To the output of the inductive sensor, a switch and a meter, a diode and a second one that connects a condo switch. connection of the iodine and the second integrating capacitor is connected to the first input of the amplitude comparator, the middle output of the voltage divider is connected to the second input of the amplitude comparator, the output

which is connected to the controlled input of the switch.

The drawing shows a diagram of the device for monitoring the modes of operation of machines.

It contains, i.e., an inductive sensor /, amplitude, K | Omparator 2, integrating capacitors 3 and 4, (controllable) switch 5, counter 6 (and, for example, electro-technology), resistor 7 and voltage divider 8, Zener diode 9 and diode 10 The output of inductive sensor 1 is connected in parallel with an emissivity .9, the first integrating capacitor 5, and the remote terminals of a voltage divider 8, successively connected by a switch 5 and a counting 6, a diode 10 and a second integrating capacitor 4. At that, the diode 10 is sewn with a resistor 7, and n The first input of the amplitude compipoTOp .a 2 is connected to the junction point of the diode 10 and the second integrating capacitor 4. The second input of the amplitude comparator is connected to the middle output of the voltage divider 8, and the output of the amplitude comparator 2 is controlled by a control; it has a 1M input (switch 5).

The operation of the device is as follows.

When the alternating current motor is turned on, the latter starts to consume electric current and an emf is induced in the winding of the inductive sensor 1. Since the winding of the inductive sensor / grounding zener diode 9, a positive voltage appears on the integrating capacitor 3, which through the switch 5 enters the electrochemical counter 6. Tgk as the voltage setting time on the second input of the amplitude KOMHiapaTOpa 2 is minimal, and on the first the input is determined by a constant time (which is defined by the resistor 7 and the integrating capacitors 4, then a signal is output from the output to the controller; 2, which keeps the controlled switch 5 open.

As the voltage on the integrating capacitor 4 rises, the comparator is activated and its output signal closes the controlled switch 5. Therefore, the current through the electromechanical counter 6 does not pass during the entire time that the electric motor is turned on.

When the electric motor EMF is turned off in the winding of the inductive sensor / is not induced and its output voltage is

to zero. When this occurs, the fast discharge of the integrating capacitor 4 through the diode 10 and the winding of the inductive sensor 1 occurs. Since the winding of the inductive sensor / has a small resistance, the discharge occurs very quickly.

When the electric motor is switched on again, a second pulse is formed, etc. Since the high-precision amplitude comparator is used as the threshold device, the current-voltage characteristic of the control pulse of the switch is stable.

Thus, the presence of new functional relationships favorably distinguishes the proposed device of art known.

The use of the proposed device will make it possible to determine more precisely the normatives of the durability of electric motors and machines in terms of the number of inclusions for the entire period of operation, which will increase the efficiency and quality of operation of machines and will give a significant economic effect.

Claims (2)

1. USSR author's certificate No. 319992, cl. G 06 K 13/00, 1972. 2. US Patent 1№ 3531689, cl. H 02 G 3/08, 10.06.68 (prototype). R ri