RU2848423C1 - Device for testing the contacts of switching devices for the effects of external mechanical factors - Google Patents

Abstract

FIELD: information and measurement technology.

SUBSTANCE: device can be used to test relays, toggle switches and other electrical products for resistance to vibration, shock and linear acceleration. The stated objective is achieved by introducing a power supply for the windings, a first and second switch, a second reference frequency generator and a second control number setter, as well as a control unit, into the device for testing the contacts of switching devices, which contains a failure recording unit, a first and second current shaper, a first and second sensing element, a reference frequency generator, a first and second counter, and a control number setter. a second reference frequency generator and a second control number setter, as well as a control unit, wherein the second inputs of the counters are each connected to their respective reference frequency generator, and the third inputs of the counters are each connected to their respective control number setter, the inputs of the second switch are connected to open and closed contacts, and the outputs of the second switch are connected to sensing elements, the input of the first switch is connected to the winding power supply, and the output of the first switch is connected to the windings of the relays under test. The output of the recording unit is connected to the control unit, and the outputs of the control unit are connected to the first and second switches, the control number setter, the power supply, and the reference frequency generators.

EFFECT: improved control completeness and increased functional and diagnostic capabilities of the device.

1 cl, 1 dwg

Description

The device is related to information-measuring equipment and can be used in testing relays, toggle switches and other electrical products for exposure to vibration, shock and linear acceleration.

A device [1] is known for monitoring electromagnetic relays during testing on a vibration stand and an impact stand, containing two portable AC sources and ten identical current monitoring channels. Each channel has a plug connector, five signal lamps and three toggle switches. One lamp is intended to monitor the supply of voltage to the relay coil. Two lamps are for monitoring closed contacts, two lamps are for monitoring closed contacts, two lamps are for monitoring open contacts. One toggle switch is for supplying voltage to the coil and the first lamp, the second toggle switch is for supplying voltage to the closed contacts and two lamps, the third toggle switch is for supplying voltage to the open contacts and two lamps. Power supply for the relay contacts and the lamps for monitoring closed and open contacts is provided by a second DC source.

The disadvantages of this device are its limited functionality: the inability to control switching contacts, the inability to control the duration of contact failure caused by spontaneous closing and opening of contacts, as well as the inability to control the relay in the operating state, and the lack of a device indicating the voltage level at which spontaneous closing and opening occurs in accordance with GOST 16121-86 and GOST RV 5945-002.

The closest in technical essence is a device [2] for testing contacts of switching devices, containing a failure registration unit, two current formers, two sensitive elements, terminals for connecting contacts of switching devices, connected to the inputs of the current formers, the outputs of which are connected to the inputs of the sensitive elements, a reference frequency generator, a control number setter, two counters, the first inputs of which are connected to the reference frequency generator, and the second inputs of the counters are connected to the output of the control number setter, the third input of the first counter is connected to the output of the first sensitive element, the third input of the second counter is connected to the output of the second sensitive element, and the outputs of the counters are connected to the input of the failure registration unit.

The disadvantages of this device are limited functional and diagnostic capabilities: the inability to set and form the permissible duration of closing and opening contacts separately for the normally open and normally closed contacts and the inability to test the relay in the operating state in accordance with GOST 16121-86 and GOST RV 5945-002.

The purpose of the invention is to increase the completeness of control and enhance the functional and diagnostic capabilities of the device.

The stated objective is achieved in that the device for testing contacts of switching devices comprises a failure registration unit, two current formers, two sensing elements, terminals for connecting the contacts of switching devices, connected to the inputs of the current formers, the outputs of which are connected to the inputs of the sensing elements, and a reference frequency generator, a check digit adjuster. It also comprises two counters, wherein the first inputs of the counters are connected to the output of the reference frequency generator, the second inputs of the counters are connected to the output of the check digit adjuster, the third input of the first counter is connected to the output of the first sensing element, the third input of the second counter is connected to the output of the second sensing element, and the outputs of the counters are connected to the inputs of the failure registration unit. The device is also equipped with a power source for the windings, two commutators, an additional reference frequency generator and a check digit adjuster, and a control unit. The second inputs of the counters are each connected to its own reference frequency generator, and the third inputs of the counters are each connected to its own check digit adjuster. The inputs of the second switch are connected to the open and closed contacts, respectively. The outputs of the second switch are connected to the sensitive elements. The input of the first switch is connected to the winding power supply, and the output of the first switch is connected to the windings of the switching device under test. The output of the recording unit is connected to the control unit. The outputs of the control unit are connected to the control inputs of the first and second switches, the checksum generators, the winding power supply, and the reference frequency generators.

The essence of the invention is explained by a figure showing a block diagram of the device.

The device contains first 1 and second 2 current formers, first 3 and second 4 sensitive elements, the tested product 5 (terminals) for connecting control circuits and contact circuits of the tested product (relay, switch, toggle switch, starter, etc.), a failure registration unit 6, first 7 and second 10 reference frequency generators, first 8 and second counters 9, first 11 and second 12 control number generators, first 13 and second 14 switches, a winding power source 15 and a control unit 16.

Current formers 1, 2 contain a power source and current-limiting resistors connected in series with the contacts of the tested product 5, which provide the required voltage and contact control current.

Sensitive elements 3, 4 are comparators that compare the voltage at the contacts of the tested product 5 when they are opened and closed with the corresponding levels of 0.1 and 0.7 (0.9) of the voltage of the switched circuit.

The test item 5 is any known electromechanical or mechanical switching device (or group of devices) that operates to close, switch or open.

These may be contacts of toggle switches, single- and double-stable relays and other switching electrical devices, including groups of contacts of parallel-connected open contacts and groups of series-connected closed contacts.

The failure registration block 6 is implemented on RS-triggers, which are triggered when a signal appears at their inputs.

Reference frequency generators 7 and 10 generate signals of a given reference frequency for monitoring a closed contact (at a level of 10 ms) and monitoring an open contact (at a level of 1 ms) in accordance with the requirements of GOST RV 5945-002.

Counters 8 and 9 of the reference frequency are built on triggers with a counting input and a controlled division ratio of the reference frequency.

The control code number setters 11 and 12 are based on electronic keys and switch the feedback in the circuits of counters 8 and 9.

Switch 13 is based on electronic keys and connects to the corresponding sensitive elements of open and closed contacts depending on the state of the product being tested.

Switch 14 is based on electronic keys and connects voltage to the corresponding winding (control circuit) of the tested product 5 to transfer it to another stable state according to signals from control unit 16.

The power supply for windings 15 is intended to supply the windings of the tested products 5 with the corresponding voltages according to signals from the control unit.

The control unit 16, containing a microcontroller, is intended for controlling the power source of the windings, the first 13 and second 14 switches, the control number generators 11 and 12 and the reference frequency generators 7 and 10, the accumulation and processing of test results.

The closed contact of the tested item 5 is connected to the first input of the counter 8 via the first current former 1, the switch 13 and the first sensitive element. The open contact is connected to the first input of the second counter 9 via the second current former 2, the switch 13 and the second sensitive element 4. The reference frequency generator 7 is connected to the second input of the counter 8. The reference frequency generator 10 is connected to the second input of the counter 9. The control number generators 11 and 12 (one for each) are connected to the third inputs of both counters. The outputs of the counters are connected to the inputs of the failure registration unit 6.

The output of the power supply for windings 15 is connected via switch 14 to the control circuits of the tested item 5. The output of the failure registration unit is connected to the input of control unit 16. The control outputs of control unit 16 are connected to the control inputs of check number generators 11 and 12, reference frequency generators 7 and 10, switches 13 and 14, and the power supply for windings 15.

The device operates as follows: the test device 5 is tested in two stable states—initial and tripped. If it is a monostable relay, no voltage is applied from the power source to windings 15 to reset it to its initial state. If it is a bistable relay, voltage from the power source to windings 15 is briefly applied through the first switch 13 to the repulsion winding.

During the process of mechanical action on the tested product 5, when a closed contact or a chain of series-connected closed contacts opens and/or an open contact closes (or a group of open contacts connected in parallel), the corresponding signals through their sensitive elements 3 and 4 are sent to the first inputs of the counters 8 and 9. If the number of pulses in the counter, corresponding to the duration of opening of the closed contact and/or the duration of closing of the open contact exceeds the corresponding specified values, the overflow signal(s) are recorded by the failure registration unit 6 and transmitted to the control unit 16.

If the duration of opening of a closed contact and/or the duration of closing of an open contact is less than the corresponding specified values, the counter(s) is automatically reset (zeroed).

The signal level recorded by sensitive elements 3 and 4 is determined by the input dividers of switch 13

1) in accordance with clause 4.1 of GOST 16121-86, when monitoring the spontaneous opening of a closed contact, it is more than 0.1 of the voltage of the switched circuit, and when monitoring the spontaneous closing of an open contact, it is when the voltage on the contacts drops below 0.7 of the voltage of the switched circuit.

2) In accordance with clause 9.3.16.14 of GOST RV 5945-002, when monitoring the spontaneous opening of a closed contact, it is more than 0.1 of the voltage of the switched circuit, and when monitoring the spontaneous closing of an open contact, it is when the voltage on the contacts drops below 0.9 of the voltage of the switched circuit.

The permissible duration of opening closed contacts is determined by the control number setter 11 and, based on the requirements of GOST 16121-86 and GOST RV 5945-002, is 10 ms. The permissible duration of closing open contacts is determined by the control number setter 12 and, based on the requirements of GOST 16121-86, is 10 ms, and based on the requirements of GOST RV 5945-002, is 1 ms. Other values may be set based on the specified requirements.

Upon completion of the initial state test, the test item 5 (e.g., a relay) is tested for operation in accordance with GOST 16121-86 and GOST RV 5945-002. For this purpose, the minimum operating voltage is supplied from the winding power source 15 to the control circuit of the monostable relay. When testing a bistable relay, a pulse with a duration of 3 to 5 times the operation time is supplied to the forward winding.

Sources of information

[1] RU 2633763 “Device for monitoring electromagnetic relays during testing on a vibration stand and impact stand”.

[2] SU 1772836 “Device for testing contacts of switching devices”.

Claims (1)

A device for testing contacts of switching devices, containing a failure recording unit, two current formers, two sensitive elements, terminals for connecting contacts of switching devices, connected to the inputs of the current formers, the outputs of which are connected to the inputs of the sensitive elements; a reference frequency generator, a control number setter, two counters, wherein the first inputs of the counters are connected to the output of the reference frequency generator, the second inputs of the counters are connected to the output of the control number setter, the third input of the first counter is connected to the output of the first sensing element, the third input of the second counter is connected to the output of the second sensing element, and the outputs of the counters are connected to the inputs of the failure registration unit, characterized in that the device is provided with a power source for the windings, two switches, an additional reference frequency generator and a control number setter, and a control unit, wherein the second inputs of the counters are each connected to its own reference frequency generator, and the third inputs of the counters are each connected to its own control number setter, the inputs of the second switch are connected to open and closed contacts, respectively, the outputs of the second switch are connected to the sensing elements, the input of the first switch is connected to the power source for the windings, and the output of the first switch is connected to the windings of the switching device under test, the output of the registration unit is connected to the unit control, and the outputs of the control unit are connected to the control inputs of the first and second switches, control number generators, winding power supply and reference frequency generators.