SU796781A1 - Method of checking contact transient resistance - Google Patents

Description

(54) METHOD FOR CONTROLLING TRANSITIVE RESISTANCE OF A CONTACT

one

 The invention relates to the measurement of electrical and magnetic quantities and can be used to measure both static and, mainly, dynamic transient resistances of low-current collector devices (sliding contacts), potentiometers and relays.

A known method for controlling contact resistance is based on comparing the reference resistance with the test and fixing the excess of the measured resistance above the allowable limit 1.

There is also known a method of controlling the contact resistance of a contact, based on the definition of: an interval in which the value of the contact resistance of a contact is monitored, by means of a multistage amplitude discriminator and counters 2.

The disadvantage of this method of control is (Low quality of control is because with the control of this method, only the magnitude of the transient resistance is measured by a multi-stage amplitude ciscriminator. This allows determining the number of changes in the magnitude

transient resistance during the control and does not give an accurate picture of the suitability or unsuitability of the contact device, since the process of contact disturbance is characterized not only by the value of the contact resistance (the duration of the breakdown of electrical contact).

The purpose of the invention is to increase the quality of control.

The goal is achieved by monitoring the contact resistance of the contacts to measure the time during which the contact resistance of the contact exceeds the permissible value, the quality of the object is judged by the excess of the measured time relative to the permissible value.

The drawing shows the block diagram of the device that implements the method.

The device contains a controlled object 1, a source of stable current 2 connected via an electronic switch 3 to a controlled object 1.

1k to the electronic key 3, the control unit 4 is also connected, from which the windings of the relay 5 are powered. In addition, the controlled object 1 is connected to the amplifier 6, which is connected to

d input multichannel amplitude

discriminator 7, one of the outputs of which is connected to the multichannel temporary discriminator 8. The outputs of the amplitude discriminator 7 are connected to counter 9, and the outputs of the temporary discriminator 8 to counters 10. The generator 11 time stamps are connected to the multichannel temporal discriminator 8.

The contact resistance of the contacts (relays, potentiometers, sliding current leads, etc.) may be constant or vary depending on the state of the conductive contact surface and may reach the level of complete breakdown of the electrical contact (failure).

The ring-brush sliding current lead control is carried out in a dynamic mode, corresponding to the current lead operation in the device: the brush movement speed is 1 mm / s, the current through the contact is 1.5 mA, the voltage of the stable current source is 27 V, When the brush moves along the ring the interval in which the magnitude of the transition resistance is determined, and the voltage drop across the contact corresponding to the change in the resistance is amplified by the amplifier 6 and a podset on the multichannel amplitude discriminator 7, each channel l which is designed for a certain interval of the transitional resistance value, depending on the magnitude of the voltage drop and the actuation threshold discriminator channel 7 signal is supplied to a pulse counter corresponding to this channel 9, by m indication which is judged on the number of changes in resistance values in the transition range. At the same time, the duration of the change in the magnitude of the transition resistance is determined, for which the signal from the amplifier b is fed through the threshold device of the amplitude discriminator 7 to the time discriminator 8. The time discriminator 8, like the amplitude one, has a number of channels, each of which is designed for a certain interval duration. Using the time stamp generator, in the temporal discriminator 8, the duration of the change in transition resistance is determined, which is fixed by the counter of the 10-corresponding channel, and according to its indications it is judged the number of changes in the value of the transition resistance in this interval. When the contact device is monitored for 1 min, the transition resistance varies from 1 Ω to 1 kΩ with the distribution of the transition resistance amplitude in the intervals as follows: from 1 Ω to 1400 changes in contact resistance are recorded; from 10 ohm doooo420 transition resistance changes; from 50 ohms to co - 120 transition resistance changes; from 100 ohms to co - 16 changes in transition resistance; from 500 ohms to co-transient resistance changes; from 1 kΩ to co - O change in transient resistance; from 10 kOhm

 up to changes in transition resistance. The duration of the change in transition resistance in the range from 5 Ω to 00 is distributed over intervals of duration in the time discriminator as follows:

5 0.1 m / s - 1 m / s - 100 changes in the magnitude of the transition resistance were recorded; 1 m / s - 10 m / s - 42 changes in transient resistance; 10 m / s - 50 m / s - About changes in transient resistance; 50 m / s 200 m / s - About changes in transition resistance.

The technical requirements for the tested sliding current lead are as follows: a transient resistance value of 50 Ω is permissible; The permissible duration of the change in transition resistance, determined by the inertia of the device in which this current lead is applied, is 25 m / s.

Thus, the analysis of the data obtained in the control shows that

5 in assessing the validity of the known

This current lead must be rejected. At the same time, a more complete analysis of the proposed method shows that the contact resistance, although it exceeds the amplitude of the permissible value, but its changes are very short-lived (high-frequency noise) and the controlled current lead meets the requirements of it, and is suitable for use .

The proposed transient resistance control method improves control quality and allows for more

Fully assess the quality of contact.

Claims (2)

1. The author's certificate of the USSR 326523, cl. G 01 R 27/00, 1970. 2. Authors certificate of the USSR 224674, cl. G 01 R 27/14, 1966.