SU870926A1 - Device for contact diagnostics - Google Patents

Description

(54) CONTACT DIAGNOSTIC DEVICE

I

The invention relates to electrical engineering, in particular to devices for diagnosing contacts in high-current equipment, and can be used in high-current switching devices.

A device for controlling contacts is known, which contains a source of alternating voltage and a voltage drop sensor on the contact, consisting of an amplifier and porous circuits, whose response threshold is set according to the values of the voltage drop on high-quality, satisfactory and defective contacts 11.

The outputs of the threshold circuits are displayed on the light indicators.

However, the known device has inherent drawbacks consisting in the impossibility of automating the diagnosis of contact connections in switching devices, due to the need to connect the device to a monitored contact during the disconnection of the network from the current.

The closest in technical essence is a contact diagnosis device containing a pulsed current source

and a pavement measuring circuit fixing the change in the resistance of the defective contact after the passage of a powerful current pulse 2.

. A disadvantage of this device is the impossibility of diagnosing contacts in branched circuits that are under current, since during pulse probing it is necessary to disconnect the circuits from the current and from the parallel circuits.

ten

The aim of the invention is to extend the functionality of the device.

The goal is achieved by the fact that, in a contact diagnosis device containing sensors, an encoding unit decoding

The IS unit, the receiver and the power source, the output of the coding unit and the input of the receiver are connected to the same conductor, and the input of the coding unit to the output of the sensors, while the output of the receiver is connected to the input

Claims (2)

XI house of the decoding unit, and the sensor power input is connected to the power supply output, the sensor inputs are bridged with parallel-connected diodes and connected to the diagnosed contacts via high-resistance resistors, and the power supply input is connected to the network via the diagnosed contact. The drawing shows a schematic diagram of the device diagnostics contacts. The device contains sensors 1-1–3–3 voltage drop indicators, coding unit 2, diodes 3–1–3–3 connected in parallel in the form of threshold sensors, high-resistance resistors 4–1–4–6, whose electrical resistance exceeds the insulation resistance of the network, the power source 5-, the receiver 6 and the decoding unit 7. The device operates as follows. When the diagnosable contacts are in good condition, a current flows through the conductors, the voltage drop from which on the diagnosable contacts does not trigger the sensors 1-1 - 1-3. At the same time, the coding unit 2 does not emit any signals. If at least one of the contacts to be diagnosed is defective, one of the sensors 1-1 to 1-3 is activated and the coding unit 2 transmits to the conductor a signal that detects the presence of a fault in the contact (in encoded and modulated form). When the diagnosed contacts are open, the power source S is disconnected from the network, and the power supply circuits of the coding unit 2 and sensors 1-1 to 1-3 are de-energized. At the same time, the contact fault signal cannot be generated. High impedance resistors 4-1 to 4-6 interfere with the passage of current through open contacts, and the high resistance of sensor inputs 1-1 to 1-3 reduces the effect of high impedance resistors 4-1 to 4-6 on the sensitivity of sensors 1-1 to 1 -3. Diodes 3-1 - 3-3 due to nonlinearity with small signals, typical, for example, for silicon diodes, in the working position (prts closed diagnostic contacts) do not affect the operation of the device, and with open diagnostic contacts they exclude the possibility of penetration the sensor inputs 1-1 - 1-3. The device allows diagnostics of contacts in branched circuits that are under current. The invention The device for diagnosing contacts containing sensors, a coding unit, a decoding unit, a receiver and a power source, the output of the encoding unit and the input of the receiver are connected to the same conductor, and the input of the encoding unit is connected to the output of the sensor, while the output of the receiver is connected to the input of the decoding unit, The sensor power input is connected to a power source output, characterized in that. That, in order to extend the functionality, the input of the sensors is shunted by anti-parallel connected dyods and connected to the diagnosable contacts via high-resistance resistors, and the input of the power supply is connected to the network through the diagnosed contact. Sources of information taken in. attention during examination 1. USSR author's certificate Ni 368483, cl. G 01 D 5/56, 1973. 2. Rusakov, Snowball. Measurement of cocktail resistance. - Instruments for scientific research, 1967, No. 3, p. 83-86. femt j