CN111880084A - Residual current protection uninterruptible power test method and device and residual current protection device - Google Patents

Abstract

The invention discloses a method for testing uninterrupted power supply of residual current protection, which is characterized in that a residual current protection circuit breaker is connected with a bypass in parallel, wherein a bypass switch is connected in series with the bypass, and the residual current test is carried out according to the following method: when the residual current protection function is tested, the bypass switch is controlled to be switched on; performing a residual current simulation test to enable the residual current protection circuit breaker to trip; after the residual current protection circuit breaker trips, the residual current protection circuit breaker is switched on; the residual current protection is not carried out within a preset delay time after the residual current protection circuit breaker is switched on, and the opening of the bypass switch is controlled within the delay time; and after the delay time is over, starting to perform residual current protection. The invention also discloses a residual current protection uninterruptible power test device and a residual current protection device. The invention can continuously supply power for the user side safely during the test period of the residual current protection function, and can effectively prevent the false operation of the residual current protection circuit breaker during the test period.

Description

Residual current protection uninterruptible power test method and device and residual current protection device

Technical Field

The invention relates to a residual current protection test method, in particular to a residual current protection uninterruptible test method and a residual current protection uninterruptible test device.

Background

In low-voltage distribution systems of daily life and factories, residual current protectors are generally used, which can prevent not only the occurrence of contact electric shock accidents, but also electrical fires caused by ground faults of electrical lines or electrical equipment. In the use process of the residual current protector, the residual current protection function must be tested regularly, and the residual current protection function is ensured to be intact. At present, the residual current protection function test is all operated through manual work, and all need live measuring around the test in order to confirm whether accord with normal operating condition, and in whole test process, the residual current protector can cause the user side to have a power failure because of triggering the protection action and separating brake, and it is inconvenient to use for the user side, and to some enterprises that the power consumption quality requirement is higher, in case the power failure restarts mechanical equipment again will have great and direct economic loss. Therefore, there is a need to design a device that will ensure that the user side is not powered down during the detection of the residual current protection function.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a method for testing the uninterrupted power supply of the residual current protection, which can continuously supply power to a user side safely during the function test period of the residual current protection circuit breaker and can effectively prevent the false operation of the residual current protection circuit breaker during the test period.

The invention specifically adopts the following technical scheme to solve the technical problems:

a method for testing the uninterrupted power supply of residual current protection is characterized in that a residual current protection circuit breaker is connected with a bypass in parallel, wherein a bypass switch is connected in series with the bypass, and the residual current test is carried out according to the following method: when a residual current test is required, controlling a bypass switch to be switched on; performing a residual current simulation test to enable the residual current protection circuit breaker to trip; after the residual current protection circuit breaker trips, the residual current protection circuit breaker is switched on; the residual current protection is not carried out within a preset delay time after the residual current protection circuit breaker is switched on, and the opening of the bypass switch is controlled within the delay time; and after the delay time of the period is finished, starting to perform residual current protection, and finishing the residual current protection uninterrupted power test.

Preferably, the tripping of the residual current protection circuit breaker is specifically: the false residual current caused by the closing parallel bypass controls the residual current protection circuit breaker to trip, or the residual current protection circuit breaker controller sends a residual current analog signal to enable the residual current protection circuit breaker to trip.

Preferably, the preset delay time is 60-120 ms.

Further, the test method further comprises recording the following data information: cumulative records, daily maximum and minimum records, event records.

Preferably, the cumulative record specifically includes: the method comprises the following steps of data zero clearing total times, total tripping times, residual current blocking tripping times, residual current protection tripping times, overload protection tripping times, overvoltage protection tripping times, manual tripping times, zero-fault protection tripping times, test tripping times, short-circuit short delay tripping times, short-circuit instantaneous tripping times, undervoltage protection tripping times, open-phase protection tripping times, total accumulation of circuit breaker operation time, abnormal alarm occurrence/recovery newly-increased times, protection function exit/recovery newly-increased times, high-voltage line loss/power recovery newly-increased times, brake position state change newly-increased times, self-checking event newly-increased times, protection action event newly-increased times and newly-increased event total times.

Preferably, the daily maximum and minimum records specifically include: the maximum value and the occurrence time of the residual current of the day to the last 30 days affect the phase of the current residual current with the maximum value, the minimum voltage and the occurrence time of A, B, C phase of the day to the last 30 days, the maximum value of A, B, C phase current of the day to the last 30 days, the minimum occurrence time and the three-phase current value, the minimum value and the occurrence time of the residual current of the day to the last 30 days, and the phase of the current with the maximum value and the residual current curve of the day to the last 1 day.

Preferably, the event record comprises: the method comprises the following steps of recording self-checking events of the circuit breaker, recording protection action events, recording protection function switching events, recording gate position change events, recording alarm events and recording high-voltage power loss/recovery events.

Based on the same inventive concept, the following technical scheme can be obtained:

a residual current protection uninterruptible power test device comprises: the device comprises a bypass which is connected with a bypass switch in series and is connected with a residual current protection circuit breaker in parallel, and a test control module; the test control module is used for carrying out a residual current protection test according to the following method: when a residual current test is required, controlling a bypass switch to be switched on; performing a residual current simulation test to enable the residual current protection circuit breaker to trip; after the residual current protection circuit breaker trips, the residual current protection circuit breaker is switched on; the residual current protection is not carried out within a preset delay time after the residual current protection circuit breaker is switched on, and the opening of the bypass switch is controlled within the delay time; and after the delay time of the period is finished, starting to perform residual current protection, and finishing the residual current protection uninterrupted power test.

Preferably, the tripping of the residual current protection circuit breaker is specifically: the false residual current caused by the closing parallel bypass controls the residual current protection circuit breaker to trip, or the residual current protection circuit breaker controller sends a residual current analog signal to enable the residual current protection circuit breaker to trip.

Preferably, the preset delay time is 60-120 ms.

Further, the device also comprises a recording module for recording the following data information: cumulative records, daily maximum and minimum records, event records.

Preferably, the cumulative record specifically includes: the method comprises the following steps of data zero clearing total times, total tripping times, residual current blocking tripping times, residual current protection tripping times, overload protection tripping times, overvoltage protection tripping times, manual tripping times, zero-fault protection tripping times, test tripping times, short-circuit short delay tripping times, short-circuit instantaneous tripping times, undervoltage protection tripping times, open-phase protection tripping times, total accumulation of circuit breaker operation time, abnormal alarm occurrence/recovery newly-increased times, protection function exit/recovery newly-increased times, high-voltage line loss/power recovery newly-increased times, brake position state change newly-increased times, self-checking event newly-increased times, protection action event newly-increased times and newly-increased event total times.

Preferably, the daily maximum and minimum records specifically include: the maximum value and the occurrence time of the residual current of the day to the last 30 days affect the phase of the current residual current with the maximum value, the minimum voltage and the occurrence time of A, B, C phase of the day to the last 30 days, the maximum value of A, B, C phase current of the day to the last 30 days, the minimum occurrence time and the three-phase current value, the minimum value and the occurrence time of the residual current of the day to the last 30 days, and the phase of the current with the maximum value and the residual current curve of the day to the last 1 day.

Preferably, the event record comprises: the method comprises the following steps of recording self-checking events of the circuit breaker, recording protection action events, recording protection function switching events, recording gate position change events, recording alarm events and recording high-voltage power loss/recovery events.

A residual current protection device comprises a residual current protection circuit breaker and the residual current protection uninterruptible power test device in any one of the technical schemes.

The invention realizes the load power supply during the residual current test by arranging the controllable bypass for the residual current protection circuit breaker and assists with the corresponding test control flow, thereby ensuring that no residual current fault or current overrun fault exists in the circuit when the bypass is switched on, ensuring that the residual current protection circuit breaker does not generate misoperation in the test process, and further improving the safety.

Drawings

FIG. 1 is a schematic circuit diagram of a residual current protection device according to the present invention;

fig. 2 is a block diagram of a residual current protection circuit breaker in an embodiment;

fig. 3 is a schematic flow chart of implementing the uninterruptible residual current test in the embodiment.

Detailed Description

Aiming at the defects of the prior art, the invention provides a controllable bypass for a residual current protection circuit breaker to realize load power supply during a residual current test, and is assisted with a corresponding test control flow to ensure that no residual current fault or current overrun fault exists in a circuit when the bypass is switched on, and ensure that the residual current protection circuit breaker does not generate misoperation in the test process.

The invention provides a method for testing uninterrupted residual current protection, which comprises the following steps:

connecting a bypass in which a bypass switch is connected in series with a residual current protection circuit breaker in parallel, and performing a residual current test according to the following method: when a residual current test is required, controlling a bypass switch to be switched on; performing a residual current simulation test to enable the residual current protection circuit breaker to trip; after the residual current protection circuit breaker trips, the residual current protection circuit breaker is switched on; the residual current protection is not carried out within a preset delay time after the residual current protection circuit breaker is switched on, and the opening of the bypass switch is controlled within the delay time; and after the delay time of the period is finished, starting to perform residual current protection, and finishing the residual current protection uninterrupted power test.

The invention provides a residual current protection uninterruptible power test device, which comprises: the device comprises a bypass which is connected with a bypass switch in series and is connected with a residual current protection circuit breaker in parallel, and a test control module; the test control module is used for carrying out a residual current protection test according to the following method: when a residual current test is required, controlling a bypass switch to be switched on; performing a residual current simulation test to enable the residual current protection circuit breaker to trip; after the residual current protection circuit breaker trips, the residual current protection circuit breaker is switched on; the residual current protection is not carried out within a preset delay time after the residual current protection circuit breaker is switched on, and the opening of the bypass switch is controlled within the delay time; and after the delay time of the period is finished, starting to perform residual current protection, and finishing the residual current protection uninterrupted power test.

For the public to understand, the technical scheme of the invention is explained in detail by a specific embodiment and the accompanying drawings:

as shown in fig. 1, in the present embodiment, a bypass connected by a bypass switch 2 and a connecting wire 3 is provided for the residual current circuit breaker 1, and the bypass and a test control module (not shown in the figure) form the residual current protection uninterruptible test device of the present invention.

The specific implementation of the test control module can adopt the following two modes:

the first mode is as follows: the control end of the bypass switch 2 is connected with the controller of the residual current protection circuit breaker 1, namely, the function of the test control module is realized by directly utilizing the controller of the residual current protection circuit breaker 1, specifically, the control coil 21 of the bypass switch 2 is connected with the controller of the residual current protection circuit breaker 1, and the control coil is used for controlling on/off by the controller of the residual current protection circuit breaker 1 before/after the residual current test, so that the bypass is conducted during the residual current test, and the loop load is ensured not to lose power. The connecting wire 3 comprises a cable inlet 31 and a cable outlet 32, two ends of the cable inlet 31 are connected with the power supply end and the bypass switch 2 through high-current crimping terminals respectively, and two ends of the cable outlet 32 are connected with the load end and the bypass switch 2 through high-current crimping terminals respectively. The bypass switch 2 can be realized by a contactor, a relay, a breaker and the like, and the contactor is preferentially adopted.

The second mode is as follows: and a bypass controller is independently arranged, the bypass switch 2 is controlled by the bypass controller, and the bypass controller is electrically connected with the controller of the residual current protection circuit breaker 1 for signal transmission. The control coil 21 of the bypass switch 2 is connected with a bypass controller, the bypass controller receives signals of the controller of the residual current protection circuit breaker 1 before/after the residual current test to control on/off, and the bypass is conducted during the residual current test to ensure that the loop load is not electrified.

The residual current protection circuit breaker 1 can be various existing types of residual current protection circuit breakers. Fig. 2 shows a specific structure of the residual current protection circuit breaker 1 in this embodiment, and the residual current protection circuit breaker 1 is used for a residual current molded case circuit breaker with an automatic reclosing function, and can be installed inside the molded case circuit breaker and also spliced outside the molded case circuit breaker. The bypass part of this embodiment is installed outside the molded case circuit breaker, is installed side by side with the molded case circuit breaker, and is connected in parallel with the residual current protection circuit breaker 1 in the molded case circuit breaker.

As shown in fig. 2, the residual current protection circuit breaker 1 is provided with a control circuit, a detection circuit, and a power supply circuit. The control circuit comprises an MCU circuit, an automatic reclosing circuit, a man-machine operation interface, an alarm circuit, a residual current test circuit, a communication circuit, an interface circuit and a tripping circuit;

the automatic reclosing circuit is electrically connected with the MCU circuit and is used for controlling the speed reducing synchronous motor to rotate to realize the automatic reclosing function;

the residual current test circuit comprises a residual current function test button and is electrically connected with the MCU circuit;

the interface circuit is electrically connected with the control coil 21 of the bypass switch 2;

the tripping circuit is used for controlling the tripping mechanism to complete the opening of the residual current protection circuit breaker;

and the human-computer operation interface displays the working state of the residual current protection circuit breaker, prompts the operation steps of the test of the residual current protection function test and displays the final test result.

And the communication module is connected with the upper computer and then can remotely control the test of the residual current protection function.

The detection circuit comprises a zero sequence transformer, a residual current sampling and amplifying circuit, a current sampling and amplifying circuit and a voltage sampling and amplifying circuit, wherein the zero sequence transformer comprises a measuring coil and a test coil;

the power circuit can be directly powered by phase line voltage, can also be powered by energy taken from a main line by a current transformer, can also be powered by external +24V, and can also be powered by a handheld mode.

Taking the first implementation manner of the test control module as an example, the process of performing the residual current test is shown in fig. 3, and specifically includes the following steps:

when a residual current test is required, a controller of the residual current protection circuit breaker controls a control coil 21 of the bypass contactor to be conducted, and the bypass contactor 2 is switched on;

after the bypass contactor 2 is switched on, controlling the residual current to protect the action tripping of the circuit breaker by the false residual current caused by switching on the parallel bypass contactor; the process control time for this embodiment is 20 ms. In the process, even if the residual current action gear is in a delay gear at the moment, the opening operation of the circuit breaker can be completed by instantaneously operating the residual current protection circuit breaker 1;

or after the bypass contactor 2 is switched on, the residual current protection circuit breaker controller sends a residual current analog signal to enable the residual current protection circuit breaker to trip;

after the residual current protection circuit breaker acts, the residual current automatic reclosing function can be started in a linkage mode, and the automatic reclosing time is less than 60 s;

judging the automatic reclosing completion condition in the time of T1 (60 s is adopted in the time of T1) through a switching-on and switching-off signal of the residual current protection circuit breaker, if the automatic reclosing is completed, delaying the time of T2 (100 ms is adopted in the time of T2) again to start residual current protection (namely, residual current detection is not carried out in the time delay period of T2, or the residual current detection is carried out but protection action is not carried out when abnormity is detected), and controlling the control coil 21 of the bypass contactor 2 to lose power in the time of T2 so as to enable the bypass contactor 2 to be switched off; completing a residual current protection test;

if the residual current protection circuit breaker is not closed completely, and the time exceeds T1 (60 s), the residual current protection circuit breaker can be determined to have mechanical faults and other abnormal conditions, the control coil 21 of the bypass contactor 2 is also controlled to be powered off, so that the bypass contactor 2 is switched off and sends a fault signal to inform a manager of repairing, and the informing mode can be a field acousto-optic alarm, can also inform a remote upper computer, and can realize remote short message informing and other reminding maintenance modes by adding a GSM module.

The residual current protection uninterruptible power test device can also be used for residual current protection circuit breakers without an automatic reclosing function; after the residual current protection circuit breaker 1 is tripped, manual switching on is carried out;

after the residual current protection circuit breaker 1 is switched on, residual current protection is carried out after T2 (100 ms is adopted in T2 time) is delayed, and the control coil 21 of the bypass contactor 2 is controlled to lose power in the T2 time, so that the bypass contactor 2 is switched off, and the residual current protection test is completed.

The residual current protection uninterruptible power test device of the embodiment can record and upload various records, and the records include: cumulative records, daily maximum and minimum records, event records;

the accumulated records comprise data zero clearing total times, total trip times, residual current blocking trip times, residual current protection trip times, overload protection trip times, overvoltage protection trip times, manual trip times, zero-missing protection trip times, test trip times (remote and key), short circuit short delay trip times, short circuit instantaneous trip times, undervoltage protection trip times, open-phase protection trip times, trip total times, total accumulation of circuit breaker operation time, abnormal alarm occurrence/new increase recovery times, protection function quit/new increase recovery times, high-voltage line loss/new increase recovery times, brake position state change new increase times, self-checking event new increase times, protection action event new increase times and new event total times;

wherein daily maximum and minimum records include: the maximum value and the occurrence time of the residual current of the day to the last 30 days affect the phase of the current residual current with the maximum value, the maximum value and the minimum voltage of A, B, C phase of the day to the last 30 days, the maximum value and the minimum voltage of A, B, C phase current of the day to the last 30 days, the minimum value occurrence time and the three-phase current value, the minimum value and the occurrence time of the residual current of the day to the last 30 days, and the phase of the current residual current with the maximum value and the residual current curve of the day to the last 1 day;

wherein the event record comprises: the method comprises the following steps of recording self-checking events of the circuit breaker, recording protection action events, recording protection function switching events, recording gate position change events, recording alarm events and recording high-voltage power loss/recovery events.

The test function of the residual current protection uninterruptible power test device can be to operate a local press test button, can also be to remotely operate through an upper computer, and can also be to set a timing trigger operation through software. Every operation has a record, and the record can be inquired through the device body or the upper computer.

The residual current protection uninterruptible power test device also has a communication function, so that the device can be remotely monitored through an upper computer.

Claims (15)

1. A method for testing uninterrupted residual current protection is characterized in that a bypass in which a bypass switch is connected in series is connected in parallel with a residual current protection circuit breaker, and a residual current test is carried out according to the following method: when a residual current test is required, controlling a bypass switch to be switched on; performing a residual current simulation test to enable the residual current protection circuit breaker to trip; after the residual current protection circuit breaker trips, the residual current protection circuit breaker is switched on; the residual current protection is not carried out within a preset delay time after the residual current protection circuit breaker is switched on, and the opening of the bypass switch is controlled within the delay time; and after the delay time of the period is finished, starting to perform residual current protection, and finishing the residual current protection uninterrupted power test.

2. The method for testing uninterrupted operation of residual current protection according to claim 1, wherein the tripping of the residual current protection circuit breaker is specifically: the false residual current caused by the closing parallel bypass controls the residual current protection circuit breaker to trip, or the residual current protection circuit breaker controller sends a residual current analog signal to enable the residual current protection circuit breaker to trip.

3. The method for testing uninterrupted power supply for residual current protection according to claim 1, wherein the preset delay time is 60-120 ms.

4. The method for testing the continuous power protection of the residual current as claimed in claim 1, wherein the method further comprises recording the following data information: cumulative records, daily maximum and minimum records, event records.

5. The method for testing uninterrupted power supply for residual current protection according to claim 4, wherein the accumulated record specifically comprises: the method comprises the following steps of data zero clearing total times, total tripping times, residual current blocking tripping times, residual current protection tripping times, overload protection tripping times, overvoltage protection tripping times, manual tripping times, zero-fault protection tripping times, test tripping times, short-circuit short delay tripping times, short-circuit instantaneous tripping times, undervoltage protection tripping times, open-phase protection tripping times, total accumulation of circuit breaker operation time, abnormal alarm occurrence/recovery newly-increased times, protection function exit/recovery newly-increased times, high-voltage line loss/power recovery newly-increased times, brake position state change newly-increased times, self-checking event newly-increased times, protection action event newly-increased times and newly-increased event total times.

6. The method for testing uninterrupted power supply for residual current protection according to claim 4, wherein the daily maximum and minimum records specifically comprise: the maximum value and the occurrence time of the residual current of the day to the last 30 days affect the phase of the current residual current with the maximum value, the minimum voltage and the occurrence time of A, B, C phase of the day to the last 30 days, the maximum value of A, B, C phase current of the day to the last 30 days, the minimum occurrence time and the three-phase current value, the minimum value and the occurrence time of the residual current of the day to the last 30 days, and the phase of the current with the maximum value and the residual current curve of the day to the last 1 day.

7. The method for testing residual current protection against power failure as claimed in claim 4, wherein said event logging comprises: the method comprises the following steps of recording self-checking events of the circuit breaker, recording protection action events, recording protection function switching events, recording gate position change events, recording alarm events and recording high-voltage power loss/recovery events.

8. The utility model provides a residual current protection does not cut off power supply test device which characterized in that includes: the device comprises a bypass which is connected with a bypass switch in series and is connected with a residual current protection circuit breaker in parallel, and a test control module; the test control module is used for carrying out a residual current protection test according to the following method: firstly, judging whether a residual current test request signal exists or not, if so, judging whether a residual current fault or a current overrun fault exists in a main loop or not, and if so, switching to a residual current or current fault action protection process; if the fault does not exist, controlling the bypass switch to be switched on; performing a residual current simulation test to enable the residual current protection circuit breaker to trip; after the residual current protection circuit breaker trips, the residual current protection circuit breaker is switched on; the residual current protection is not carried out within a preset delay time after the residual current protection circuit breaker is switched on, and the opening of the bypass switch is controlled within the delay time; and after the delay time of the period is finished, starting to perform residual current protection, and finishing the residual current protection uninterrupted power test.

9. The device for testing uninterrupted power supply for residual current protection according to claim 8, wherein the tripping operation of the residual current protection circuit breaker is specifically: the false residual current caused by the closing parallel bypass controls the residual current protection circuit breaker to trip, or the residual current protection circuit breaker controller sends a residual current analog signal to enable the residual current protection circuit breaker to trip.

10. The device for testing uninterrupted power supply for residual current protection according to claim 8, wherein the predetermined delay time is 60-120 ms.

11. The device for testing uninterrupted power supply for residual current protection according to claim 8, further comprising a recording module for recording the following data information: cumulative records, daily maximum and minimum records, event records.

12. The device for testing uninterrupted power supply for residual current protection according to claim 11, wherein the cumulative record specifically comprises: the method comprises the following steps of data zero clearing total times, total tripping times, residual current blocking tripping times, residual current protection tripping times, overload protection tripping times, overvoltage protection tripping times, manual tripping times, zero-fault protection tripping times, test tripping times, short-circuit short delay tripping times, short-circuit instantaneous tripping times, undervoltage protection tripping times, open-phase protection tripping times, total accumulation of circuit breaker operation time, abnormal alarm occurrence/recovery newly-increased times, protection function exit/recovery newly-increased times, high-voltage line loss/power recovery newly-increased times, brake position state change newly-increased times, self-checking event newly-increased times, protection action event newly-increased times and newly-increased event total times.

13. The device for testing uninterrupted power supply for residual current protection according to claim 11, wherein the daily maximum and minimum records specifically comprise: the maximum value and the occurrence time of the residual current of the day to the last 30 days affect the phase of the current residual current with the maximum value, the minimum voltage and the occurrence time of A, B, C phase of the day to the last 30 days, the maximum value of A, B, C phase current of the day to the last 30 days, the minimum occurrence time and the three-phase current value, the minimum value and the occurrence time of the residual current of the day to the last 30 days, and the phase of the current with the maximum value and the residual current curve of the day to the last 1 day.

14. The residual current protection uninterruptible power test device of claim 11, wherein the event log comprises: the method comprises the following steps of recording self-checking events of the circuit breaker, recording protection action events, recording protection function switching events, recording gate position change events, recording alarm events and recording high-voltage power loss/recovery events.

15. A residual current protection device, comprising a residual current protection circuit breaker and the residual current protection uninterruptible power testing device of any one of claims 8 to 14.

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