SU964777A1 - Device for testing transient resistance of contacts of switching apparatus - Google Patents

Description

The invention relates to electrical engineering, in particular, to devices for monitoring the transient resistance of the contacts of switching products. .

A device for monitoring the transitional resistance of the relay contacts is known, comprising an amplifier, a comparison unit, a sawtooth generator, a pulse number counter, an electronic switch, a reset and start driver, and a reference pulse generator 13.

The main drawbacks of this device are low performance and accuracy.

The closest to the invention to the technical essence is a device for monitoring the contact resistance of switching devices and their sorting, the comparison unit, to one input of which the test contact and amplifier are connected, and to the second input - the output of the sawtooth generator, reference pulse generator, electronic key,: pulse counter, electronic mechanical carousel drive, control unit, including

two sensors and a reset and start driver, as well as an executive unit including a logic device and a sorting device.

A disadvantage of the known device is the lack of accuracy, mainly due to changes in the characteristics of the amplifier, the comparison unit and the sawtooth generator 10 when the parameters of the external environment change and with the aging of the elements.

The aim of the invention is to improve the accuracy and reliability of the control.

This goal is achieved by the fact that the current circuit switch, the measuring circuit switch, are introduced into the device for monitoring the contact resistance of the switching devices, containing a comparison unit, a control unit, an actuator and terminals for connecting the monitored contacts.

25 analog adder, reference voltage source, direct current source, code-voltage converter, rebersive counter and reference resistor with current and potential terminals, one output of the control unit connected to one input of the actuator, current circuit switch and measuring switch circuits, another output of the control unit is connected to one input of the reversible counter, the output of the reversible counter is connected via a converter with a code-voltage connected to one input of an analog adder, the other input An analog adder is connected to the output of a voltage source, and an analog output. the adder is connected to the single input of the comparator unit, another input of the comparator unit is connected to the output of the measuring circuit switch, and the output of the comparator block is connected to the other inputs of the executive body and reversible counter, the DC source is connected to the current circuit switch current terminals of the reference resistor are also connected, potential terminals of the reference resistor are connected to the measuring circuit switch, and terminals for connecting monitored contacts are connected to the corresponding inputs m of the commutator of current circuits and commutator of measuring circuits. The drawing shows a block diagram of a device for controlling the contact resistance of switching devices. In the proposed device, a source of direct current 1 is connected to a switch 2 current circuits. The switch 3 of the measuring circuits is connected to the comparison unit 4, to one of the inputs of which is connected a series of analog adder 5, converter code voltage b, reversible counter 7 and control unit 8. The source 9 of the reference voltage is connected to the Other input of the analog adder 5, and the actuator 10 is connected to the comparison unit 4 and the control unit 8. The current terminals of the reference resistor 11 are connected to the switchboard of 2 current circuits, and the potential terminals to the metering circuit switch. The test contacts 12 ,, 12л, ..., 12g, are connected to the inputs of the commutators of current circuits 2 and measuring circuits 3. The device has two modes of operation: calibration mode and control mode l. The calibration mode is automatically set when the device is turned on and then periodically repeated during operation. When calibrated, the current from the DC source 1 through the switch 2 current circuits goes to the reference resistor 11 and creates a reference voltage at the last, which through the switch 3 to the measuring circuits goes to the input of the reference unit 4, to the other input from the analog adder 5 a voltage is supplied equal to the sum of the voltages from the source 9 of the reference voltage and the code-voltage converter b connected to the output of the reversible counter 7, to the counting input of which the pulse impulses are supplied in the calibration mode and control 8. In this case, if the voltage from the reference resistor 11 (taking into account the bias voltage) exceeds the voltage from the analog adder 5, the output of the comparison unit 4 is a logical signal that sets the reversible counter 7 to the add mode, and the pulses from the control unit 8 increase the code of the reversible counter 7 until the voltages at the two inputs of the comparison unit 4 (taking into account the 1 April offset) become equal. If the voltage on the reference resistor 11 (taking into account the bias voltage) is less than the voltage from the output of the analog sumator 5, the output of the comparison unit 4 is a logical signal O, which sets the reversible counter 7 to the subtraction mode. Thus, in the calibration mode, the output of the analog adder 5 automatically sets the voltage corresponding to the reference -. voltage, taking into account changes in the characteristics of elements and environmental parameters. After that, the flow of counting pulses from the output of control unit 8 to the counting input of the reversible counter 7 is stopped. The device switches to monitoring mode. Switch 2 current circuits in turn or in groups connects the test contacts 12. ,, 12, ..., 12 "to a DC source. The voltage from the test contacts is alternately connected by the switch 3 of the measuring circuits to the input of the comparison unit 4, where they are compared with the voltage received from the analog adder 5. The result of the control goes to the actuator 10, which also receives the address code of the test contact from the control unit 8 -. The executive body 10 can be of any design, in particular, it can include a logic device and a sorting unit. The use of the invention makes it possible to automate the execution of measurements and the control, to reduce the cost of the control device due to the fact that it provides high accuracy and reliability of the control with relatively low requirements on the stability of the elements of the device.

Claims (2)

1. USSR author's certificate No. 243071, cl. H 01 H 49/00, 1967. 2. USSR author's certificate, №427418, cl. H 01 H 49/00, 1972 five i (prototype).