JP7310156B2 - Circuit breaker status diagnostic device, circuit breaker status diagnostic system, circuit breaker status diagnostic method, and program - Google Patents

Description

TECHNICAL FIELD Embodiments of the present invention relate to circuit breaker condition diagnosis devices, circuit breaker condition diagnosis systems, circuit breaker condition diagnosis methods, and programs.

Electrical stations such as power plants, substations, and switchyards are equipped with circuit breakers for switching currents flowing through transmission lines and transformers. Circuit breakers use power such as hydraulic pressure and springs to drive main contacts for opening and closing extra high voltage or high voltage electrical circuits.
In order to maintain the performance of circuit breakers, inspections for function confirmation and inspections for function recovery are performed periodically.
In the function check inspection, the operating speed is measured and controlled when the main contact of the circuit breaker is opened and closed. These are very important in maintaining the function of the circuit breaker.
As a method for measuring the operating speed, there is a method in which a sensor is directly attached to the driving part of the main contact, and the operating speed is directly measured and managed. From the operating speed measurement results, it is possible to grasp the functional deterioration of the circuit breaker due to aging, and to set an appropriate inspection timing for functional recovery.
Also, since the drive stroke of the main contact is predetermined, there is a method of indirectly managing the operating speed by measuring and managing the drive time. As an example of a method for measuring drive time, there is a method that starts timing when an operation command for closing or opening is detected, and ends timing when the open/close state of the main contact changes (on or off). .

In addition, when the auxiliary switch for status display is mechanically linked to the drive shaft, when an operation command for closing or opening is detected, timing is started, and the normally open contact of the auxiliary switch ( When the contact state of the a-contact) or the normally-closed contact (b-contact) is reversed, the clocking is terminated to measure the driving time.
A technique for monitoring a plurality of circuit breakers with high accuracy is known as a technique for monitoring circuit breakers (see, for example, Patent Literature 1). This technology is a circuit breaker for a plurality of circuit breakers each having a main contact that closes in response to a closing command and opens in response to a tripping command, and an auxiliary contact that opens and closes in conjunction with the switching operation of the main contact. In the monitoring device, a power supply circuit that constantly applies a voltage to the inlet end of the auxiliary contact of each of the plurality of circuit breakers, and the voltage of the outlet end of the auxiliary contact of each of the plurality of circuit breakers are monitored. a monitoring device for identifying a circuit breaker in which the voltage at the outlet end of the contact undergoes a predetermined change as an operating circuit breaker.

JP 2011-070838 A

If a method of indirectly managing the operating speed by measuring and managing the driving time is adopted, the inspection shall be carried out by attaching a portable measuring instrument to the circuit breaker to be inspected and measuring the circuit breaker. and measure the driving time. In the inspection, functions are checked based on the measurement results of the drive time, which is time-consuming.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and an object thereof is to provide a circuit breaker condition diagnosis device, a circuit breaker condition diagnosis system, a circuit breaker condition diagnosis method, and a program that can easily diagnose circuit breaker conditions. to provide.

One aspect of the present invention is a command current detection unit that detects a command current that flows through a closing coil and an opening coil of a circuit breaker, and an auxiliary switch contact that opens and closes in conjunction with the main contact of the circuit breaker. a switching state detection unit for detecting a change in the switching state of the main contact based on the voltage applied to the main contact; and after the command current detection unit detects the command current, the switching state detection unit A time measuring unit for measuring the time until a change in the switching state of the auxiliary switch contact that opens and closes in conjunction with the contact is detected, and the state of the circuit breaker is determined based on the time measured by the time measuring unit. a determination unit, wherein the auxiliary switch has a normally open contact that is open when the main contact is in an open state and is closed when the main contact is in a closed state; and a normally closed contact that is closed when the main contact is in the closed state and is open when the main contact is in the closed state, wherein the time measurement unit detects a command current flowing through the closing coil by the command current detection unit. Measure the closing command normally open contact response time or the opening command normally open contact response time from the date and time when the current is detected to the date and time when the change of the normally open contact from open to closed is detected by the switching state detection unit. The period from the date and time when the command current detection unit detects the command current, which is the current flowing through the open coil, to the date and time when the switching state detection unit detects that the normally closed contact has changed from closed to open. The closing command normally-closed contact response time or the opening command normally-closed contact response time is measured, and the determination unit determines the closing command normally-closed contact response time threshold and the closing command normally-closed contact response time threshold based on the preset closing command normally closed contact response time threshold. and when the closing command normally-open contact response time is less than the closing command normally-open contact response time threshold and the closing command normally-closed contact response time is less than the closing command normally-closed contact response time threshold, It is determined that the circuit breaker is normal, and the closing command normally open contact response time is equal to or greater than the closing command normally open contact response time threshold, or the closing command normally closed contact response time is equal to or greater than the closing command normally closed contact response time threshold. , the circuit breaker is determined to be abnormal, and the open command normally open contact is determined based on a preset open command normally open contact response time threshold and an open command normally closed contact response time threshold When the response time is less than the open command normally closed contact response time threshold and when the open command normally closed contact response time is less than the open command normally closed contact response time threshold, it is determined that the circuit breaker is normal. and if the opening command normally closed contact response time is equal to or greater than the open command normally open contact response time threshold or the open command normally closed contact response time is equal to or greater than the open command normally closed contact response time threshold, the circuit breaker It is a circuit breaker state diagnostic device that determines that is abnormal .
In a circuit breaker state diagnosis device according to one aspect of the present invention, a noise removal unit that removes noise from currents flowing through a closing coil and an opening coil of a circuit breaker and opens and closes in conjunction with the main contact of the circuit breaker. a chattering removal unit that removes chattering from the voltage applied between the auxiliary switch contacts ; A command current is detected, and the switching state detection section determines the switching state of the auxiliary switch contact that opens and closes in conjunction with the main contact based on the voltage that has been subjected to the chattering elimination process by the chattering elimination section. Detect changes.
In the circuit breaker state diagnostic device according to one aspect of the present invention, the chattering elimination unit may eliminate chattering from a voltage applied to one or both of a normally open contact and a normally closed contact mechanically linked to the main contact. and the open/closed state detection unit detects the voltage applied to one or both of the normally open contact and the normally closed contact for which the chattering removal unit has performed the process of removing the chattering to detect a change in the open/closed state of the main contact.
In the circuit breaker state diagnostic device according to one aspect of the present invention, the switching state detection unit detects changes in voltage caused by changes in the normally open contact between opening and closing, and A change in the open/closed state of the main contact is detected based on either one or both of the voltage change caused by the change between and.
The circuit breaker condition diagnosis device according to one aspect of the present invention includes a derivation unit that derives the inspection timing of the circuit breaker based on the determination result of the determination unit.

One aspect of the present invention is a command current detection unit that detects a command current that flows through a closing coil and an opening coil of a circuit breaker, and an auxiliary switch contact that opens and closes in conjunction with the main contact of the circuit breaker. a switching state detection unit for detecting a change in the switching state of the main contact based on the voltage applied to the main contact; and after the command current detection unit detects the command current, the switching state detection unit A time measuring unit for measuring the time until a change in the switching state of the auxiliary switch contact that opens and closes in conjunction with the contact is detected, and the state of the circuit breaker is determined based on the time measured by the time measuring unit. a determination unit, wherein the auxiliary switch has a normally open contact that is open when the main contact is in an open state and is closed when the main contact is in a closed state; and a normally closed contact that is closed when the main contact is in the closed state and is open when the main contact is in the closed state, wherein the time measurement unit detects a command current flowing through the closing coil by the command current detection unit. Measure the closing command normally open contact response time or the opening command normally open contact response time from the date and time when the current is detected to the date and time when the change of the normally open contact from open to closed is detected by the switching state detection unit. The period from the date and time when the command current detection unit detects the command current, which is the current flowing through the open coil, to the date and time when the switching state detection unit detects that the normally closed contact has changed from closed to open. The closing command normally-closed contact response time or the opening command normally-closed contact response time is measured, and the determination unit determines the closing command normally-closed contact response time threshold and the closing command normally-closed contact response time threshold based on the preset closing command normally closed contact response time threshold. and when the closing command normally-open contact response time is less than the closing command normally-open contact response time threshold and the closing command normally-closed contact response time is less than the closing command normally-closed contact response time threshold, It is determined that the circuit breaker is normal, and the closing command normally open contact response time is greater than or equal to the closing command normally open contact response time threshold, or the closing command normally closed contact response time is greater than or equal to the closing command normally closed contact response time threshold. , the circuit breaker is determined to be abnormal, and based on a preset opening command normally open contact response time threshold and an opening command normally closed contact response time threshold, the opening command normally open contact When the response time is less than the open command normally closed contact response time threshold and the open command normally closed contact response time is less than the open command normally closed contact response time threshold, it is determined that the circuit breaker is normal. and if the opening command normally closed contact response time is equal to or greater than the open command normally open contact response time threshold or the open command normally closed contact response time is equal to or greater than the open command normally closed contact response time threshold, the circuit breaker It is a circuit breaker status diagnosis system that determines that is abnormal .

One aspect of the present invention is a circuit breaker condition diagnosis method executed by a circuit breaker condition diagnosis device, comprising the steps of detecting a command current that is a current flowing through a closing coil and an opening coil of a circuit breaker; the step of detecting a change in the switching state of the main contact based on the voltage applied between the auxiliary switch contacts that open and close in conjunction with the main contact; and the step of detecting the command current, wherein the command current is measuring the time from detecting the switching state to detecting a change in the switching state of the auxiliary switch contact that opens and closes in conjunction with the main contact in the step of detecting the switching state; and determining the state of the circuit breaker based on the time measured in step, wherein the auxiliary switch is open when the main contacts are open and when the main contacts are closed. and a normally closed contact that is closed when the main contact is in the open state and is open when the main contact is in the closed state, and measures the time. In the step, from the date and time when the command current, which is the current flowing in the closing coil, is detected in the step of detecting the command current, the step of detecting the change in the switching state changes the normally open contact from open to closed. From the date and time when the command current, which is the current flowing through the open coil by the step of measuring the closing command normally open contact response time or the opening command normally open contact response time until the date and time when is detected, and detecting the command current measuring the closing command normally closed contact response time or the opening command normally closed contact response time until the date and time when the change of the normally closed contact from closed to open is detected by the step of detecting a change in the switching state; In the determining step, the closing command normally open contact response time is determined based on a closing command normally open contact response time threshold and a closing command normally closed contact response time threshold set in advance. If the closing command normally closed contact response time is less than the threshold and the closing command normally closed contact response time is less than the closing command normally closed contact response time threshold, the circuit breaker is determined to be normal, and the closing command normally closed contact response time If the make command normally closed contact response time threshold or more or the make command normally closed contact response time is equal to or more than the make command normally closed contact response time threshold, it is determined that the circuit breaker is abnormal. Based on the open command normally open contact response time threshold and the open command normally closed contact response time threshold, the open command normally open contact response time is less than the open command normally open contact response time threshold, and the open determining that the circuit breaker is normal when the command normally closed contact response time is less than the open command normally closed contact response time threshold, and determining that the open command normally closed contact response time is the open command normally open contact response time; The circuit breaker state diagnosis method determines that the circuit breaker is abnormal when it is equal to or greater than a threshold value or when the response time of the open command normally closed contact is equal to or greater than the open command normally closed contact response time threshold.

According to one aspect of the present invention, a step of detecting a command current, which is a current flowing through a closing coil and an opening coil of a circuit breaker, and a step of detecting a command current, which is a current flowing through a closing coil and an opening coil of a circuit breaker, and a step of detecting a change in the switching state of the main contact based on the voltage applied to the main contact; a step of detecting the command current; and a step of detecting the switching state after detecting the command current. , a step of measuring a time taken to detect a change in the switching state of an auxiliary switch contact that opens and closes in conjunction with the main contact; and the auxiliary switch comprises a normally open contact that is open when the main contact is in the open state and is closed when the main contact is in the closed state, and the main contact a normally closed contact that is closed when the main contact is open and is open when the main contact is closed; From the date and time when the command current, which is the current flowing in the closing coil, is detected by The step of measuring the open contact response time or the open command normally open contact response time, and detecting the change in the switching state from the date and time when the command current, which is the current flowing through the open coil, is detected by the step of detecting the command current. measure the closing command normally closed contact response time or the opening command normally closed contact response time until the date and time when the change of the normally closed contact from closed to open is detected, and in the determining step, a preset Based on the closing command normally open contact response time threshold and the closing command normally closed contact response time threshold, the closing command normally open contact response time is less than the closing command normally open contact response time threshold, and the closing command normally open contact response time is less than the closing command normally open contact response time threshold. If the closed contact response time is less than the make command normally closed contact response time threshold, the circuit breaker is determined to be normal, and the make command normally open contact response time is greater than or equal to the make command normally open contact response time threshold. , or when the make command normally closed contact response time is equal to or greater than the make command normally closed contact response time threshold, the circuit breaker is determined to be abnormal, and a preset opening command normally open contact response time threshold is determined. and an open command normally closed contact response time threshold, the open command normally closed contact response time is less than the open command normally closed contact response time threshold, and the open command normally closed contact response time is the open command If it is less than the normally closed contact response time threshold, the circuit breaker is determined to be normal, and the open command normally open contact response time is greater than or equal to the open command normally open contact response time threshold, or the open command normally closed contact The program determines that the circuit breaker is abnormal when the response time is equal to or greater than the open command normally closed contact response time threshold.

According to the embodiments of the present invention, it is possible to provide a circuit breaker condition diagnosis device, a circuit breaker condition diagnosis system, a circuit breaker condition diagnosis method, and a program that can easily diagnose circuit breaker conditions.

It is a figure which shows an example of the circuit breaker which the circuit breaker state diagnosis apparatus of 1st Embodiment diagnoses. 1 is a block diagram showing an example of a circuit breaker condition diagnosis device according to a first embodiment; FIG. It is a figure which shows an example of operation|movement of the circuit breaker state diagnostic apparatus of 1st Embodiment. It is a figure which shows an example of operation|movement of the circuit breaker state diagnostic apparatus of 1st Embodiment. It is a flow chart which shows an example of operation of a circuit breaker state diagnostic device of a 1st embodiment. It is a figure which shows an example of the circuit breaker which the circuit breaker state diagnosis system of 2nd Embodiment diagnoses. It is a block diagram which shows an example of the circuit breaker state collection system of 2nd Embodiment. It is a figure which shows an example of the circuit breaker state diagnosis system of 2nd Embodiment. It is a sequence chart which shows an example of operation|movement of the circuit breaker state diagnostic system of 2nd Embodiment. It is a sequence chart which shows an example of operation|movement of the circuit breaker state diagnostic system of 2nd Embodiment.

Next, the circuit breaker condition diagnosis device, circuit breaker condition diagnosis system, circuit breaker condition diagnosis method, and program of the present embodiment will be described with reference to the drawings. The embodiments described below are merely examples, and embodiments to which the present invention is applied are not limited to the following embodiments.
In addition, in all the drawings for explaining the embodiments, the same reference numerals are used for the parts having the same functions, and repeated explanations are omitted.
In addition, "based on XX" in the present application means "based on at least XX", and includes cases based on other elements in addition to XX. Moreover, "based on XX" is not limited to the case of using XX directly, but also includes the case of being based on what has been calculated or processed with respect to XX. "XX" is an arbitrary element (for example, arbitrary information).

(First embodiment)
(circuit breaker status diagnosis device)
A circuit breaker condition diagnosis device according to a first embodiment of the present invention will be described with reference to the drawings. The circuit breaker state diagnosis device of the first embodiment detects a command current, which is a current flowing through a closing coil and an opening coil of a circuit breaker. The circuit breaker state diagnosis device of the first embodiment detects changes in the switching state of the main contacts based on the voltage applied between the main contacts of the circuit breaker. The circuit breaker state diagnostic device of the first embodiment measures the time from detecting a command current to detecting a change in the switching state of the main contact, and based on the measured time, determines the state of the circuit breaker. judge. Here, the circuit breaker will be explained.

(circuit breaker)
FIG. 1 is a diagram showing an example of a circuit breaker whose state is diagnosed by the circuit breaker state diagnosis device of the first embodiment. A circuit breaker condition diagnosis device 100 of this embodiment is permanently installed in an operation box included in the circuit breaker 10 . The circuit breaker 10 is installed, for example, in an electrical station such as a power station, a substation, or a switching station.
The circuit breaker 10 includes a bushing 1-1, a bushing 1-2, a main circuit conductor 2-1, a main circuit conductor 2-2, a main contact 3, a normally open contact 4a, a normally closed contact 4b, A current sensor 5 , an opening coil 6 , a closing coil 7 , a breaker 9 , and a circuit breaker state diagnosis device 100 are provided. Further, the circuit breaker 10 is connected to an external operation unit 20, and the external operation unit 20 is connected to a control power supply (DC) 8.
The breaking device 9 includes the main contact 3 . A bushing 1-1 and a bushing 1-2 are provided on the upper part of the blocking device 9. As shown in FIG. A main circuit conductor 2-1 and a main circuit conductor 2-2 are arranged inside the bushing 1-1 and the bushing 1-2, respectively. The main circuit conductor 2-1 and the main circuit conductor 2-2 are connected to a power transmission line via metal terminals.
The main contact 3 includes two electrodes, and the two electrodes are normally connected (hereinafter referred to as "closed state"). The main contact 3 can cut off the electricity instantly by separating the two electrodes. In other words, the separation of the two electrodes results in a state in which the two electrodes are open (hereinafter referred to as "open state"). The main contact 3 has shifted to the open state, but when returning from the open state to the closed state, it can be brought to the closed state by performing the closing operation.
When the main contact 3 is in the closed state and the opening coil 6 is operated by operating the external operation unit 20 connected to the control power supply 8, the circuit breaker 10 shifts to the open state. That is, the main contact 3 of the breaking device 9 is broken. Specifically, when the switch s1 connected to the open coil 6 of the external operation unit 20 is turned on, the open coil 6 is operated.
When the closing coil 7 is operated by operating the external operation unit 20 connected to the control power supply 8 while the circuit breaker 10 is in the open state, the circuit breaker 10 shifts to the closed state. That is, the main contact 3 of the breaking device 9 is connected. Specifically, when the switch s2 connected to the closing coil 7 of the external operation unit 20 is turned on, the closing coil 7 operates.

The current sensor 5 detects the current flowing through the open coil 6 when the open coil 6 operates to open the circuit breaker 10 . A current detected by the current sensor 5 is output to the circuit breaker condition diagnosis device 100 . Specifically, the electric wire connecting the switch s1 of the external operation unit 20 and the open coil 6 is sandwiched between the clamp-type current sensors 5, and the current flowing through the open coil 6 when the switch s1 is turned on. is detected by the current sensor 5 .
When the closing coil 7 operates and the circuit breaker 10 is in the closing state, the current flowing through the closing coil 7 is detected by the current sensor 5 . A current detected by the current sensor 5 is output to the circuit breaker condition diagnosis device 100 . Specifically, the electric wire connecting the switch s2 of the external operation unit 20 and the open coil 6 is sandwiched between the clamp-type current sensors 5, and the current flowing through the closing coil 7 when the switch s2 is turned on. is detected by the current sensor 5 .
The normally open contact 4a is included in an auxiliary switch that is mechanically linked to the drive shaft of the main contact 3 and is open when the main contact 3 is in the open state and is open when the main contact 3 is in the closed state. is closed. In other words, when the main contact 3 changes from the open state to the closed state, the normally open contact 4a changes from open to closed in conjunction with the operation of the main contact 3 . When the main contact 3 changes from the closed state to the open state, the normally open contact 4a changes from closed to open in conjunction with the operation of the main contact 3 .
The normally open contact 4a is connected to the circuit breaker state diagnostic device 100, and the circuit breaker state diagnostic device 100 changes the state of the normally open contact 4a from the open state to the closed state when the main contact 3 changes from the open state to the closed state. The change to the closed state is detected by a change in voltage across the normally open contact 4a. The circuit breaker state diagnosis device 100 detects that the normally open contact 4a has changed from closed to open when the main contact 3 changes from the closed state to the open state, based on the change in the voltage across the normally open contact 4a.
The normally closed contact 4b is included in an auxiliary switch that is mechanically linked to the drive shaft of the main contact 3 and is closed when the main contact 3 is open and closed when the main contact 3 is closed. is open. In other words, when the main contact 3 changes from the open state to the closed state, the normally closed contact 4b changes from closed to open in conjunction with the operation of the main contact 3 . When the main contact 3 changes from the closed state to the open state, the normally closed contact 4b changes from open to closed in conjunction with the operation of the main contact 3 .
The normally closed contact 4b is connected to the circuit breaker state diagnostic device 100, and the circuit breaker state diagnostic device 100 changes the state of the normally closed contact 4b from the closed state to the closed state when the main contact 3 changes from the open state to the closed state. The change to open is detected by a change in the voltage across the normally closed contact 4b. The circuit breaker state diagnosis device 100 detects that the normally closed contact 4b changes from open to closed when the main contact 3 changes from the closed state to the open state, based on the change in the voltage across the normally closed contact 4b.

Next, an example of the circuit breaker condition diagnosis device 100 permanently installed in the operation box included in the circuit breaker 10 will be described.
(circuit breaker status diagnosis device)
FIG. 2 is a block diagram showing an example of the circuit breaker condition diagnosis device of the first embodiment.
The circuit breaker status diagnostic device 100 of the first embodiment includes a contact input interface (FL) 101-1, a contact input interface (FL) 101-2, a current input interface (DT) 102, an input port (I/ P) 103, information processing unit 104, operating state monitoring unit (WDT) 105, display (DISP) 106, real-time clock (RTC) 107, storage unit (EEPROM) 108, output port (O/P ) 109.

A contact input interface (FL) 101-1 is connected by a normally open contact 4a, contacts fla1 and flb1. The contact input interface 101-1 includes one, two or all of an analog filter, a voltage application circuit, and an overvoltage protection circuit. In this embodiment, the case where the contact input interface 101-1 includes all of the analog filter, the voltage application circuit, and the overvoltage protection circuit will be described. The analog filter extracts only necessary frequency components or removes unnecessary components from analog signals. A voltage application circuit applies a voltage. The overvoltage protection circuit prevents voltage exceeding the set value. Noise is removed by an analog filter and an overvoltage protection circuit. A voltage applied between the normally open contacts 4a is input to the contact input interface 101-1. The contact input interface 101-1 removes noise from the input voltage and outputs the noise-removed voltage (hereinafter referred to as "normally open contact voltage") to the input port 1-3.
A contact input interface (FL) 101-2 is connected by a normally closed contact 4b, contacts fla2 and flb2. The contact input interface 101-2 includes one, two or all of an analog filter, a voltage application circuit, and an overvoltage protection circuit. In this embodiment, the case where the contact input interface 101-1 includes all of the analog filter, the voltage application circuit, and the overvoltage protection circuit will be described. Noise is removed by an analog filter and an overvoltage protection circuit. A voltage applied between the normally closed contacts 4b is input to the contact input interface 101-2. The contact input interface 101-2 removes noise from the input voltage and outputs the noise-removed voltage (hereinafter referred to as "normally closed contact voltage") to the input port 1-3.
A current input interface (DT) 102 is connected to the current sensor 5 via contacts dt1 and dt2. Current input interface 102 includes a waveform shaping circuit and an overvoltage protection circuit. A waveform shaping circuit cuts off a portion of the input waveform and outputs the remaining portion. The current input interface 102 cuts a portion of the current output by the current sensor 5 and outputs either the open command current or the closing command current, which is the remaining portion, to the input port 103 .
Switches sw1 to swn (n is an integer of n>0) are switches for operating the circuit breaker condition diagnosis device 100. FIG. The circuit breaker condition diagnosis device 100 operates by operating the switches sw1 to swn.

The input port 103 is connected to the contact input interface 101-1, the contact input interface 101-2, the current input interface 102, and the switches sw1 to swn. The input port 103 acquires the normally open contact voltage output by the contact input interface 101-1 and the normally closed contact voltage output by the contact input interface 101-2, and acquires the normally open contact voltage and the normally closed contact voltage. are output to the information processing unit 104 .
The input port 103 acquires either the close command current or the open command current output by the current input interface 102, and outputs either the acquired close command current or open command current to the information processing unit 104. do.
The input port 103 acquires operation information output from the switches sw1 to swn, and outputs the acquired operation information to the information processing unit 104 .
The operating state monitoring unit 105 is connected to the information processing unit 104 . The operating state monitoring unit 105 monitors whether the circuit breaker state diagnosis device 100 is operating normally by monitoring whether an error has occurred in the information processing unit 104 . When the operating state monitoring unit 105 detects that an error has occurred in the information processing unit 104 and determines that the circuit breaker state diagnostic device 100 is not operating normally, the circuit breaker state diagnostic device 100 output to the output port 109 information indicating that an abnormality has occurred in the
Display 106 is connected to information processing section 104 . The display 106 displays information and the like output by the information processing section 104 . Specifically, the display 106 displays information indicating the open command normally closed contact response time and information indicating the open command normally closed contact response time. The display 106 displays the determination result as to whether the circuit breaker 10 is abnormal.
Real time clock 107 is connected to information processing section 104 . A real-time clock 107 is used to specify the measurement date and time.

Storage unit 108 is connected to information processing unit 104 . Storage unit 108 stores program 1081 executed by information processing unit 104 .
The program 1081 causes the circuit breaker status diagnosis device 100 to detect either the closing command current flowing through the closing coil 7 of the circuit breaker 10 or the opening command current flowing through the opening coil 6 . The program 1081 instructs the circuit breaker state diagnosis device 100 to change the normally open contact 4a from open to closed based on the normally open contact voltage output from the input port 103 when the main contact 3 changes from the open state to the closed state. detect that it has changed. The program 1081 instructs the circuit breaker state diagnostic device 100 to change the normally closed contact 4b from closed to open based on the normally closed contact voltage output from the input port 103 when the main contact 3 changes from the open state to the closed state. detect that it has changed.
The program 1081 instructs the circuit breaker status diagnosis device 100 to indicate the time required from the date and time when the closing command current was detected to the date and time when the normally open contact 4a changed from open to closed (hereinafter referred to as "closing command normally open contact (referred to as “response time”). The program 1081 provides the circuit breaker status diagnostic device 100 with the time required from the date and time when the closing command current was detected to the date and time when the normally closed contact 4b changed from closed to open (hereinafter referred to as "closing command normally closed contact (referred to as “response time”). The program 1081 causes the circuit breaker state diagnosis device 100 to determine the state of the circuit breaker 10 based on the closing command normally open contact response time and the closing command normally closed contact response time measured.

The program 1081 instructs the circuit breaker state diagnosis device 100 to change the normally open contact 4a from closed to open based on the normally open contact voltage output from the input port 103 when the main contact 3 is changed from the closed state to the open state. Detect what has changed. The program 1081 instructs the circuit breaker state diagnosis device 100 to change the normally closed contact 4b from open to closed based on the normally closed contact voltage output from the input port 103 when the main contact 3 is changed from the closing state to the open state. Detect what has changed.
The program 1081 provides the circuit breaker status diagnostic device 100 with the time required from the date and time when the open command current is detected to the date and time when it is detected that the normally closed contact 4b changes from open to closed (hereinafter referred to as "open command normally closed contact (referred to as “response time”). The program 1081 tells the circuit breaker status diagnosis device 100 the time required from the date and time when the open command current is detected to the date and time when it is detected that the normally open contact 4a changes from closed to open (hereinafter referred to as "open command normally open contact (referred to as “response time”). The program 1081 causes the circuit breaker state diagnosis device 100 to determine the state of the circuit breaker 10 based on the measured open command normally closed contact response time and the open designated normally open contact response time.
The output port 109 is connected to the information processing section 104 and the operating state monitoring section 105 . The output port 109 includes an information communication port for outputting an alarm when an abnormality is detected, and an information communication port for data linking with a host system data server or the like. The output port 109 acquires information indicating that an abnormality has occurred in the circuit breaker state diagnosis device 100 output by the operation state monitoring unit 105, and converts the information indicating that an abnormality has occurred in the circuit breaker state diagnosis device 100 to the acquired information. Based on this, an alarm is output from the information communication port.

All or part of the information processing unit 104 is a functional unit realized by executing a program 1081 stored in the storage unit 108 by a processor such as a CPU (Central Processing Unit) (hereinafter referred to as a software functional unit). ). Note that all or part of the information processing unit 104 may be realized by hardware such as LSI (Large Scale Integration), ASIC (Application Specific Integrated Circuit), or FPGA (Field-Programmable Gate Array). It may be realized by a combination of units and hardware.
The information processing section 104 functions as a command current detection section 1041, an open/close state detection section 1042, a time measurement section 1043, and a determination section 1044, for example.
The command current detection unit 1041 acquires either the close command current output by the input port 103 or the open command current. When the command current detection unit 1041 detects the command current to be applied, the command current detection unit 1041 outputs information indicating that the command current to be applied is detected to the time measurement unit 1043 . When command current detection section 1041 detects the open command current, command current detection section 1041 outputs information indicating that the open command current has been detected to time measuring section 1043 .
The switching state detection unit 1042 detects that the normally open contact 4a changes from the open state to the closed state based on the normally open contact voltage output from the input port 103, and changes the normally open contact 4a from the open state to the closed state. Information indicating the change is output to time measurement section 1043 .
The switching state detection unit 1042 detects that the normally closed contact 4b changes from the closed state to the open state based on the normally closed contact voltage output from the input port 103, and the normally closed contact 4b changes from the closed state to the open state. Information indicating the change is output to time measurement section 1043 .
The switching state detection unit 1042 detects that the normally open contact 4a changes from the closed state to the open state based on the normally open contact voltage output from the input port 103, and the normally open contact 4a changes from the closed state to the open state. Information indicating the change is output to time measurement section 1043 .
The switching state detection unit 1042 detects that the normally closed contact 4b changes from the open state to the closed state based on the normally closed contact voltage output from the input port 103, and changes the normally closed contact 4b from the open state to the closed state. Information indicating the change is output to time measurement section 1043 .

The time measurement unit 1043 acquires information indicating that the input command current output by the command current detection unit 1041 has been detected. The time measurement unit 1043 acquires from the real-time clock 107 the date and time when the information indicating that the injection command current has been detected is acquired.
The time measurement unit 1043 acquires information output from the switching state detection unit 1042 indicating that the normally open contact 4a has changed from the open state to the closed state. The time measurement unit 1043 acquires information output from the switching state detection unit 1042 indicating that the normally closed contact 4b has changed from the closed state to the open state.
The time measuring unit 1043 acquires the date and time when the information indicating that the normally open contact 4a has changed from the open state to the closed state and the date and time when the normally closed contact 4b has obtained the information indicating that the closed state has changed from the closed state to the open state. are obtained from the real-time clock 107 .
The time measurement unit 1043 acquires information indicating that the normally open contact 4a has changed from the open state to the closed state from the date and time when the information indicating that the closing command current output by the command current detection unit 1041 has been detected is acquired. Measure the closing command normally open contact response time, which is the elapsed time until the date and time.
The time measurement unit 1043 acquires information indicating that the normally closed contact 4b has changed from the closed state to the open state from the date and time when the information indicating that the closing command current output by the command current detection unit 1041 has been detected is acquired. Measure the turn-on command normally closed contact response time, which is the elapsed time until the date and time.
Time measurement unit 1043 outputs information indicating the measured closing command normally open contact response time and information indicating the closing command normally closed contact response time to determination unit 1044 and display 106 .

The time measurement unit 1043 acquires information indicating that the command current detection unit 1041 has detected the opening command current output. The time measurement unit 1043 acquires from the real-time clock 107 the date and time when the information indicating that the opening command current has been detected is acquired.
The time measurement unit 1043 acquires information output from the switching state detection unit 1042 indicating that the normally closed contact 4b has changed from the open state to the closed state. The time measurement unit 1043 acquires information output from the open/close state detection unit 1042 indicating that the normally open contact 4a has changed from the closed state to the open state.
The time measuring unit 1043 acquires the date and time when the information indicating that the normally closed contact 4b has changed from the open state to the closed state and the date and time when it has obtained the information indicating that the normally open contact 4a has changed from the closed state to the open state. are obtained from the real-time clock 107 .

The time measurement unit 1043 acquires information indicating that the normally closed contact 4b has changed from the open state to the closed state from the date and time when the information indicating that the open command current output by the command current detection unit 1041 has been detected is obtained. Measure the open command normally closed contact response time, which is the elapsed time until the date and time.
The time measurement unit 1043 acquires information indicating that the normally open contact 4a has changed from the closed state to the open state from the date and time when the information indicating that the open command current output by the command current detection unit 1041 has been detected has been obtained. Measure the open command normally open contact response time, which is the elapsed time until the date and time.
Time measurement unit 1043 outputs information indicating the measured open command normally closed contact response time and information indicating the open command normally closed contact response time to determination unit 1044 and display 106 .

The determination unit 1044 acquires the information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time output from the time measurement unit 1043 . The determination unit 1044 determines whether the circuit breaker 10 is normal based on the acquired information indicating the make command normally open contact response time and the information indicating the make command normally closed contact response time.
Specifically, determination unit 1044 determines the closing command normally open contact response time based on the closing command normally open contact response time threshold and the closing command normally closed contact response time threshold, which are set in advance. If it is less than the contact response time threshold and the closing command normally closed contact response time is less than the closing command normally closed contact response time threshold, it is determined that the circuit breaker 10 is normal. If the closing command normally open contact response time is equal to or greater than the closing command normally open contact response time threshold or the closing command normally closed contact response time is equal to or greater than the closing command normally closed contact response time threshold, the determination unit 1044 determines that the circuit breaker 10 Judged as abnormal. Determination unit 1044 outputs to display 106 a determination result as to whether circuit breaker 10 is abnormal.
The determination unit 1044 acquires the information indicating the open command normally closed contact response time output from the time measuring unit 1043 and the information indicating the open command normally closed contact response time. The determination unit 1044 determines whether or not the circuit breaker 10 is normal based on the acquired information indicating the open command normally open contact response time and the information indicating the open command normally closed contact response time.
Specifically, determination unit 1044 determines whether the open command normally open contact response time is equal to the open command normally open contact response time based on the preset open command normally open contact response time threshold and the open command normally closed contact response time threshold. When the contact response time threshold is less than the open command normally closed contact response time and the open command normally closed contact response time is less than the open command normally closed contact response time threshold, the circuit breaker 10 is determined to be normal. The determination unit 1044 determines whether the circuit breaker 10 is Judged as abnormal. Determination unit 1044 outputs to display 106 a determination result as to whether circuit breaker 10 is abnormal.

(Operation of circuit breaker status diagnosis device)
Here, regarding the operation of the determination unit 1044 of the information processing unit 104, when the external operation unit 20 is operated, the current sensor 5 detects the current flowing through the open coil 6, and when the current sensor 5 detects the current flowing through the closing coil 7 The description will be made separately for the case of detecting the flowing current.
(When the current sensor 5 detects the current flowing through the open coil 6)
FIG. 3 is a diagram showing an example of the operation of the circuit breaker condition diagnosis device of the first embodiment.
The left diagram of FIG. 3 shows the current waveform (trigger) input from the current sensor 5 to the circuit breaker state diagnostic device 100, the voltage waveform (a contact) between the normally open contacts 4a, and the voltage waveform between the normally closed contacts 4b. (b con) is shown. That is, the left diagram of FIG. 3 shows the results of normal monitoring.
According to the left diagram of FIG. 3, after the current waveform (trigger) input to the circuit breaker condition diagnosis device 100 changes by a predetermined current threshold or more, the voltage waveform (a con) across the normally open contact 4a changes to a predetermined constant value. After that, the voltage waveform (b con) between the normally closed contacts 4b changes by more than the predetermined normally closed contact voltage threshold. Specifically, after the current waveform (trigger) input to the circuit breaker condition diagnosis device 100 rises by a predetermined current threshold, the voltage waveform (a contact) between the normally open contacts 4a is equal to or higher than the predetermined normally open contact voltage threshold. After that, the voltage waveform (b con) across the normally closed contact 4b rises above a predetermined normally closed contact voltage threshold. In this case, the closing command normally open contact response time is 25 [ms], and the closing command normally closed contact response time is 35 [ms].
3 shows the closing command current (trigger) input to the information processing unit 104 of the circuit breaker condition diagnosis device 100, the normally open contact voltage waveform (a contact) between the normally open contacts 4a, and the normally closed contacts. A normally closed contact voltage waveform (b con) between 4b is shown. In other words, the right diagram of FIG. 3 shows the results obtained by the circuit breaker condition diagnosis device 100 of this embodiment.
According to the right diagram of FIG. 3, after the closing command current (trigger) input to the information processing unit 104 of the circuit breaker condition diagnosis device 100 changes by a predetermined closing command current threshold or more, the voltage waveform between the normally open contacts 4a (a con) changes by a predetermined normally open contact voltage threshold or more, and thereafter the voltage waveform (b con) across the normally closed contact 4b changes by a predetermined normally closed contact voltage threshold or more. Specifically, after the closing command current (trigger) input to the information processing unit 104 of the circuit breaker condition diagnosis device 100 rises by a predetermined closing command current threshold or more, the voltage waveform (a con) between the normally open contacts 4a drops by a predetermined normally-open contact voltage threshold or more, and the voltage waveform (b con) across the normally-closed contact 4b rises by a predetermined normally-closed contact voltage threshold or more. In this case, the closing command normally open contact response time is 25.5 [ms], and the closing command normally closed contact response time is 35.2 [ms].
According to the left and right diagrams of FIG. 3, the current waveform (trigger) input to the circuit breaker condition diagnosis device 100, the voltage waveform (a contact) between the normally open contacts 4a, and the Closing command normally open contact response time, closing command normally closed contact response time, and closing command current (trigger ), the voltage waveform (a con) across the normally open contact 4a, and the voltage waveform (b con) across the normally closed contact 4b, and the closing command normally open contact response time and the closing command normally closed contact response It can be seen that similar results are obtained over time.

(When the current sensor 5 detects the current flowing through the closing coil 7)
FIG. 4 is a diagram showing an example of the operation of the circuit breaker condition diagnosis device of the first embodiment.
The left diagram of FIG. 4 shows the current waveform (trigger) input from the current sensor 5 to the circuit breaker condition diagnostic device 100, the voltage waveform (a contact) between the normally open contacts 4a, and the voltage waveform between the normally closed contacts 4b. (b con) is shown. That is, the left diagram of FIG. 4 shows the results of normal monitoring.
According to the left diagram of FIG. 4, after the current waveform (trigger) input to the circuit breaker condition diagnosis device 100 changes by a predetermined current threshold or more, the voltage waveform (b con) across the normally closed contact 4b changes to a predetermined constant value. After that, the voltage waveform between the normally open contacts 4a (a contact) changes by more than the predetermined normally open contact voltage threshold. Specifically, after the current waveform (trigger) input to the circuit breaker condition diagnosis device 100 rises by a predetermined current threshold, the voltage waveform (b con) between the normally closed contacts 4b is equal to or higher than the predetermined normally closed contact voltage threshold. , and the voltage waveform (acon) across the normally open contact 4a rises above a predetermined normally open contact voltage threshold. In this case, the closing command normally closed contact response time is 69 [ms], and the closing command normally open contact response time is 109 [ms].
4 shows the closing command current (trigger) input to the information processing unit 104 of the circuit breaker condition diagnosis device 100, the normally open contact voltage waveform (a contact) between the normally open contacts 4a, and the normally closed contacts. A normally closed contact voltage waveform (b con) between 4b is shown. That is, the right diagram of FIG. 4 shows the results obtained by the circuit breaker condition diagnosis device 100 of this embodiment.
According to the right diagram of FIG. 4, after the closing command current (trigger) input to the information processing unit 104 of the circuit breaker condition diagnosis device 100 changes by a predetermined closing command current threshold or more, the voltage waveform between the normally closed contacts 4b (b con) changes by a predetermined normally closed contact voltage threshold or more, and thereafter the voltage waveform (a con) across the normally open contact 4a changes by a predetermined normally open contact voltage threshold or more. Specifically, after the closing command current (trigger) input to the information processing unit 104 of the circuit breaker condition diagnosis device 100 rises by a predetermined closing command current threshold or more, the voltage waveform (b con) across the normally closed contact 4b decreases by a predetermined normally closed contact voltage threshold or more, and the voltage waveform (a contact) across the normally open contact 4a increases by a predetermined normally open contact voltage threshold or more. In this case, the closing command normally closed contact response time is 68.4 [ms], and the closing command normally open contact response time is 109.1 [ms].
According to the left and right diagrams of FIG. 4, the current waveform (trigger) input to the circuit breaker condition diagnosis device 100, the voltage waveform (a contact) between the normally open contacts 4a, and the The opening command normally open contact response time derived based on the voltage waveform (b con), the opening command normally closed contact response time, and the opening command current (trigger ), the voltage waveform (a con) across the normally open contact 4a, and the voltage waveform (b con) across the normally closed contact 4b, the opening command normally open contact response time and the open command normally closed contact response It can be seen that similar results are obtained over time.

(Operation of circuit breaker status diagnosis device)
FIG. 5 is a flow chart showing an example of the operation of the circuit breaker condition diagnosis device of the first embodiment.
(Step S1)
The command current detection unit 1041 of the circuit breaker state diagnosis device 100 detects either the closing command current or the opening command current output by the input port 103 .
(Step S2)
The command current detection unit 1041 determines whether or not the input command current has been detected.
(Step S3)
When the command current detection unit 1041 detects the command current to be applied, the command current detection unit 1041 outputs information indicating that the command current to be applied is detected to the time measurement unit 1043 . The time measuring unit 1043 acquires information indicating that the closing command current output by the command current detecting unit 1041 has been detected, and acquires the date and time when the information indicating that the closing command current has been detected is obtained from the real-time clock 107. . The time measurement unit 1043 stores the date and time when the information indicating that the injection command current was detected is acquired in the storage unit 108 .
(Step S4)
The switching state detection unit 1042 detects that the normally open contact 4a changes from the open state to the closed state based on the normally open contact voltage output from the input port 103, and changes the normally open contact 4a from the open state to the closed state. Information indicating the change is output to time measurement section 1043 .
(Step S5)
The time measurement unit 1043 acquires information output from the switching state detection unit 1042 indicating that the normally open contact 4a has changed from the open state to the closed state. The time measurement unit 1043 acquires from the real-time clock 107 the date and time when the information indicating that the normally open contact 4a has changed from the open state to the closed state is acquired. The time measurement unit 1043 stores in the storage unit 108 the date and time when the information indicating that the normally open contact 4a has changed from the open state to the closed state is acquired.
(Step S6)
The time measuring unit 1043 acquires the date and time when the information indicating that the closing command current output by the command current detecting unit 1041 has been detected, and the information indicating that the normally open contact 4a has changed from the open state to the closed state. Based on the date and time, the closing command normally open contact response time is measured. Time measurement unit 1043 outputs information indicating the measured closing command normally open contact response time to determination unit 1044 and display 106 .
(Step S7)
The switching state detection unit 1042 detects that the normally closed contact 4b changes from the closed state to the open state based on the normally closed contact voltage output from the input port 103, and the normally closed contact 4b changes from the closed state to the open state. Information indicating the change is output to time measurement section 1043 .
(Step S8)
The time measurement unit 1043 acquires information output from the switching state detection unit 1042 indicating that the normally closed contact 4b has changed from the closed state to the open state. The time measuring unit 1043 acquires from the real-time clock 107 the date and time when the information indicating that the normally closed contact 4b has changed from the closed state to the open state is acquired. The time measurement unit 1043 stores in the storage unit 108 the date and time when the information indicating that the normally closed contact 4b has changed from the closed state to the open state is obtained.
(Step S9)
The time measuring unit 1043 acquires the date and time when the information indicating that the closing command current output by the command current detecting unit 1041 has been detected, and the information indicating that the normally closed contact 4b has changed from the closed state to the open state. Based on the date and time, the closing command normally closed contact response time is measured. Time measurement unit 1043 stores information indicating the measured closing command normally closed contact response time in storage unit 108 and outputs it to determination unit 1044 and display 106 .
(Step S10)
The determination unit 1044 acquires the information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time output from the time measurement unit 1043 . The determination unit 1044 determines whether the circuit breaker 10 is normal based on the acquired information indicating the make command normally open contact response time and the information indicating the make command normally closed contact response time. Determination unit 1044 outputs to display 106 a determination result as to whether circuit breaker 10 is abnormal.

(Step S11)
The display 106 acquires the information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time output by the time measurement unit 1043, and acquires the information indicating the closing command normally open contact response time. and information indicating the closing command normally closed contact response time.
The display 106 acquires the determination result as to whether or not the circuit breaker 10 is abnormal output by the determination unit 1044, and displays the acquired determination result as to whether or not the circuit breaker 10 is abnormal.
(Step S12)
When command current detection section 1041 detects the open command current, command current detection section 1041 outputs information indicating that the open command current has been detected to time measurement section 1043 . The time measurement unit 1043 acquires information indicating that the opening command current output by the command current detection unit 1041 has been detected, and acquires the date and time when the information indicating that the opening command current has been detected is obtained from the real-time clock 107. . Time measurement unit 1043 stores the date and time when the information indicating that the opening command current was detected is acquired in storage unit 108 .
(Step S13)
The switching state detection unit 1042 detects that the normally open contact 4a changes from the closed state to the open state based on the normally open contact voltage output from the input port 103, and the normally open contact 4a changes from the closed state to the open state. Information indicating the change is output to time measurement section 1043 .
(Step S14)
The time measurement unit 1043 acquires information output from the open/close state detection unit 1042 indicating that the normally open contact 4a has changed from the closed state to the open state. The time measurement unit 1043 acquires from the real-time clock 107 the date and time when the information indicating that the normally open contact 4a has changed from the closed state to the open state is acquired. The time measurement unit 1043 stores in the storage unit 108 the date and time when the information indicating that the normally open contact 4a has changed from the closed state to the open state is obtained.
(Step S15)
The time measurement unit 1043 acquires the date and time when the information indicating that the open command current output by the command current detection unit 1041 has been detected, and the information indicating that the normally open contact 4a has changed from the closing state to the open state. Based on the date and time, the open command normally open contact response time is measured. Time measurement section 1043 outputs information indicating the measured open command normally open contact response time to determination section 1044 and display 106 .

(Step S16)
The switching state detection unit 1042 detects that the normally closed contact 4b changes from the open state to the closed state based on the normally closed contact voltage output from the input port 103, and changes the normally closed contact 4b from the open state to the closed state. Information indicating the change is output to time measurement section 1043 .
(Step S17)
The time measurement unit 1043 acquires information output from the switching state detection unit 1042 indicating that the normally closed contact 4b has changed from the open state to the closed state. The time measurement unit 1043 acquires from the real-time clock 107 the date and time when the information indicating that the normally closed contact 4b has changed from the open state to the closed state is acquired. The time measurement unit 1043 stores in the storage unit 108 the date and time when the information indicating that the normally closed contact 4b has changed from the open state to the closed state is obtained.
(Step S18)
The time measurement unit 1043 acquires the date and time when the information indicating that the open command current output by the command current detection unit 1041 was detected and the information indicating that the normally closed contact 4b changed from the open state to the closed state. Based on the date and time, the open command normally closed contact response time is measured. Time measurement unit 1043 stores information indicating the measured open command normally closed contact response time in storage unit 108 and outputs it to determination unit 1044 and display 106 .
(Step S19)
The determination unit 1044 acquires the information indicating the open command normally closed contact response time output from the time measuring unit 1043 and the information indicating the open command normally closed contact response time. The determination unit 1044 determines whether or not the circuit breaker 10 is normal based on the acquired information indicating the open command normally open contact response time and the information indicating the open command normally closed contact response time. Determination unit 1044 outputs to display 106 a determination result as to whether circuit breaker 10 is abnormal.
(Step S20)
The display 106 acquires the information indicating the open command normally open contact response time and the information indicating the open command normally closed contact response time output by the time measurement unit 1043, and acquires the acquired information indicating the open command normally open contact response time. and information indicating the open command normally closed contact response time.
The display 106 acquires the determination result as to whether or not the circuit breaker 10 is abnormal output by the determination unit 1044, and displays the acquired determination result as to whether or not the circuit breaker 10 is abnormal.
In the flowchart shown in FIG. 5, the order of steps S4 to S6 and steps S7 to S9 may be changed, or the order of steps S13 to S15 and steps S16 to S18 may be changed.

In the above-described first embodiment, the circuit breaker condition diagnosis device 100 is permanently installed in the operation box included in the circuit breaker 10, but the present invention is not limited to this. For example, the circuit breaker condition diagnosis device 100 may be attached to the circuit breaker 10 .
In the above-described first embodiment, the circuit breaker state diagnosis device 100 detects the circuit breaker 10 based on both the information indicating the opening command normally closed contact response time and the information indicating the opening command normally closed contact response time. Although the case of determining whether or not the device is normal has been described, the present invention is not limited to this example. For example, the circuit breaker state diagnosis device 100 determines whether the circuit breaker 10 is normal based on either information indicating the opening command normally closed contact response time or information indicating the opening command normally closed contact response time. may be determined. Further, for example, the time elapsed from the date and time when the circuit breaker state diagnosis device 100 acquired information indicating that the opening command current was detected to the date and time when the main contact 3 changed from the closed state to the open state, and the closing command The circuit breaker 10 is normal based on one or both of the time elapsed from the date and time when the information indicating that the current was detected was acquired to the date and time when the main contact 3 changed from the open state to the closed state. It may be determined whether
In the first embodiment described above, the case where the circuit breaker condition diagnosis device 100 determines whether or not the circuit breaker 10 is normal has been described, but the present invention is not limited to this example. For example, the circuit breaker state diagnosis device 100 determines whether the circuit breaker 10 is normal or not, and derives the inspection timing of the circuit breaker 10 based on the result of the determination of whether the circuit breaker 10 is normal. You may make it Specifically, when the open command normally open contact response time is less than the open command normally open contact response time threshold value, the determination unit 1044 advances the inspection timing as the difference decreases. , the inspection timing may be delayed as the difference increases. Further, when the open command normally closed contact response time is less than the open command normally closed contact response time threshold value, the determining unit 1044 advances the inspection timing as the difference decreases, and the difference increases. As the size increases, the inspection timing may be delayed.
According to the circuit breaker state diagnostic device 100 of the first embodiment, the circuit breaker state diagnostic device 100 includes a command current detection unit that detects a command current that is a current flowing through the closing coil 7 and the opening coil 6 of the circuit breaker 10. Then, based on the voltage applied between the main contacts 3 of the circuit breaker 10, after the command current is detected by the switching state detection unit that detects the change in the switching state of the main contacts 3 and the command current detection unit, A time measurement unit that measures the time until the switching state detection unit detects a change in the switching state of the main contact 3, and a determination unit that determines the state of the circuit breaker 10 based on the time measured by the time measurement unit. Prepare. By configuring in this way, the size of circuit breaker condition diagnosis device 100 can be made compact. By making the size of the circuit breaker condition diagnosis device 100 compact, it can be built in the circuit breaker 10 . The circuit breaker condition diagnostic device 100 can be incorporated in the circuit breaker 10 . As a result, each time the main contact 3 of the circuit breaker 10 changes between the open state and the closing state, the operation time (closing command normally open contact response time, closing command normally closed contact response time, opening command normally open contact response time) time, opening command normally closed contact response time) can be derived, inspection for operation confirmation can be substituted without stopping the breaker 10.

In the past, an oscillograph or waveform recorder was used to record the command current and the state of the main contact, or the normally closed and normally open contacts of the auxiliary switch.
Also, a noise removal unit that removes noise from the current flowing through the closing coil 7 and the opening coil 6 of the circuit breaker 10, and a process that removes chattering from the voltage applied between the main contacts 3 of the circuit breaker 10. The command current detection unit detects the command current that is the current subjected to noise removal processing by the noise removal unit, and the open/close state detection unit detects the chattering removed by the chattering removal unit. A change in the open/closed state of the main contact 3 is detected based on the processed voltage.
Here, the chattering elimination section performs processing for eliminating chattering from the voltage applied to one or both of the normally open contact and the normally closed contact mechanically linked to the main contact 3, and the switching state detection section detects a change in the open/closed state of the main contact based on the voltage applied to one or both of the normally open contact and the normally closed contact whose chattering has been removed by the chattering remover.
Since the opening/closing operation of the main contact 3 of the circuit breaker 10 (change between the open state and closed state) is high speed, the auxiliary switch operates in linkage with the main contact 3 during the opening/closing operation of the main contact 3. Chattering may occur in the process of fully closing or fully opening the contacts. The circuit breaker status diagnosis device 100 includes a contact input interface (FL) 101-1 and a contact input interface (FL) 101-2. -2 is equipped with an analog filter and an overvoltage protection circuit, so that noise can be removed. Therefore, the influence of chattering can be reduced.
In the vicinity of the operation box of the circuit breaker, various noises are superimposed on the operation current detection circuit and the contact state detection circuit of the auxiliary switch due to electromagnetic induction from the main circuit and switching surges during switching. The circuit breaker status diagnostic device 100 includes a contact input interface (FL) 101-1, a contact input interface (FL) 101-2, and a current input interface (DT) 102. The contact input interface (FL) 101-1 , the contact input interface (FL) 101-2, and the current input interface (DT) 102 each have an analog filter and an overvoltage protection circuit, so noise can be removed.

(Second embodiment)
(Breaker status diagnosis system)
A circuit breaker condition diagnosis system according to a second embodiment of the present invention will be described with reference to the drawings.
FIG. 6 is a diagram showing an example of a circuit breaker diagnosed by the circuit breaker condition diagnosis system of the second embodiment. The circuit breaker state diagnosis system of the second embodiment differs from that of the first embodiment in that it includes a circuit breaker state collection device 100a and a circuit breaker state diagnosis device 100b. The circuit breaker state collection device 100a and the circuit breaker state diagnosis device 100b are connected via a network 50 such as the Internet.
A circuit breaker state collection device 100a of the second embodiment detects a command current, which is a current flowing through the closing coil 7 and the opening coil 6 of the circuit breaker 10. FIG. A circuit breaker state collection device 100 a of the second embodiment detects changes in the switching state of the main contacts 3 based on the voltage applied across the main contacts 3 of the circuit breaker 10 . The circuit breaker state collection device 100a of the second embodiment measures the time from detection of the command current to detection of change in the switching state of the main contact 3 . The circuit breaker state collecting device 100a of the second embodiment includes information indicating the measurement result of the time from detection of the command current to detection of change in the switching state of the main contact 3, and is a circuit breaker state diagnostic device. 100b is created, and the created notification information is transmitted to the circuit breaker condition diagnosis device 100b.
The circuit breaker state diagnostic device 100b of the second embodiment receives the notification information transmitted by the circuit breaker state collection device, and detects the command current included in the received notification information. , to obtain the measurement result of the time until the change in the switching state of the main contact is detected. The circuit breaker state diagnostic device 100b of the second embodiment detects the state of the circuit breaker 10 based on the measurement result of the time from detection of the acquired command current to detection of change in the switching state of the main contact. judge. Here, the circuit breaker state collection device 100a and the circuit breaker state diagnosis device 100b will be sequentially described.

(circuit breaker status diagnosis device)
FIG. 7 is a block diagram showing an example of the circuit breaker state collection device of the second embodiment.
The circuit breaker state collection device 100a of the second embodiment includes a contact input interface (FL) 101-1, a contact input interface (FL) 101-2, a current input interface (DT) 102, an input port (I/ P) 103, information processing unit 104a, operating state monitoring unit (WDT) 105, display (DISP) 106, real time clock (RTC) 107, storage unit (EEPROM) 108a, output port (O/P ) 109 and a communication unit 110a.

The storage unit 108a is connected to the information processing unit 104a. The storage unit 108a stores a program 1081a executed by the information processing unit 104a.
The program 1081a causes the circuit breaker state collection device 100a to detect either the closing command current flowing through the closing coil 7 of the circuit breaker 10 or the opening command current flowing through the opening coil 6 of the circuit breaker 10 . The program 1081a instructs the circuit breaker state collection device 100a to change the normally open contact 4a from open to closed based on the normally open contact voltage output from the input port 103 when the main contact 3 changes from the open state to the closed state. Detect what has changed. The program 1081a instructs the circuit breaker state collection device 100a to change the normally closed contact 4b from closed to open based on the normally closed contact voltage output from the input port 103 when the main contact 3 changes from the open state to the closed state. Detect what has changed.
The program 1081a provides the circuit breaker status collection device 100a with the closing command normally open contact response, which is the time required from the date and time when the closing command current is detected to the date and time when it is detected that the normally open contact 4a changes from open to closed. Have the time measured. The program 1081a provides the circuit breaker status collection device 100a with the closing command normally closed contact response, which is the time required from the date and time when the closing command current is detected to the date and time when the normally closed contact 4b changes from closed to open. Have the time measured. The program 1081a contains information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time measured by the circuit breaker status collection device 100a, and is addressed to the circuit breaker status diagnosis device 100b. Then, the generated notification information is transmitted to the circuit breaker condition diagnosis device 100b.

The program 1081a instructs the circuit breaker state collection device 100a to change the normally open contact 4a from closed to open based on the normally open contact voltage output from the input port 103 when the main contact 3 changes from the closed state to the open state. detect that it has changed. The program 1081a instructs the circuit breaker state collection device 100a to change the normally closed contact 4b from open to closed based on the normally closed contact voltage output from the input port 103 when the main contact 3 changes from the closed state to the open state. detect that it has changed.
The program 1081a tells the circuit breaker status collection device 100a to detect the opening command normally closed contact response, which is the time required from the date and time when the open command current is detected to the date and time when it is detected that the normally closed contact 4b changes from open to closed. have the time measured. The program 1081a provides the circuit breaker status collection device 100a with the time required from the date and time when the open command current is detected to the date and time when the normally open contact 4a changes from closed to open. have the time measured. The program 1081a contains information indicating the closing command normally closed contact response time and the information indicating the closing command normally open contact response time measured by the circuit breaker status collection device 100a, and is addressed to the circuit breaker status diagnosis device 100b. Then, the generated notification information is transmitted to the circuit breaker condition diagnosis device 100b.

Communication unit 110 is realized by a communication module. Specifically, the communication unit 110 is configured by a wireless device that performs wireless communication using wireless communication technology such as LTE and wireless LAN. Also, the communication unit 110 may be configured by a device that performs wired communication. The communication unit 110 communicates with an external communication device such as the circuit breaker condition diagnosis device 100b via the network 50 . Specifically, the communication unit 110 acquires the notification information output by the information processing unit 104a, and transmits the acquired notification information to the circuit breaker condition diagnosis device 100b.
All or part of the information processing unit 104a is, for example, a software function unit implemented by a processor such as a CPU executing a program 1081a stored in the storage unit 108a. All or part of the information processing unit 104a may be realized by hardware such as LSI, ASIC, or FPGA, or may be realized by a combination of software function units and hardware.
The information processing unit 104a functions as a command current detection unit 1041, an open/close state detection unit 1042, a time measurement unit 1043, and a generation unit 1045, for example.
Time measurement unit 1043 outputs information indicating the measured closing command normally open contact response time and information indicating the closing command normally closed contact response time to creation unit 1045 and display 106 .
Time measurement unit 1043 outputs information indicating the measured open command normally closed contact response time and information indicating the open command normally closed contact response time to creating unit 1045 and display 106 .

The creating unit 1045 acquires the information indicating the closing command normally open contact response time output by the time measuring unit 1043 and the information indicating the closing command normally closed contact response time. The creating unit 1045 creates and creates notification information including the acquired information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time, and addressed to the circuit breaker status diagnosis device 100b. The received notification information is output to the communication unit 110a.
The creating unit 1045 acquires the information indicating the open command normally open contact response time output by the time measuring unit 1043 and the information indicating the open command normally closed contact response time. The creation unit 1045 creates and creates notification information including the acquired information indicating the opening command normally-closed contact response time and the information indicating the opening command normally-closed contact response time, and addressed to the circuit breaker status diagnosis device 100b. The received notification information is output to the communication unit 110a. Next, the circuit breaker condition diagnosis device 100b will be described.

(circuit breaker status diagnosis device)
FIG. 8 is a diagram showing an example of a circuit breaker condition diagnosis device according to the second embodiment. Circuit breaker condition diagnosis device 100b is implemented by a device such as a personal computer, a server, or an industrial computer. The circuit breaker condition diagnosis device 100b includes a communication unit 110b, a storage unit 108b, an operation unit 120, an information processing unit 104b, a display (DISP) 106b, and each component as shown in FIG. and a bus line 150 such as an address bus and a data bus for connecting to each other.
The communication unit 110b is realized by a communication module. Specifically, the communication unit 110b is configured by a wireless device that performs wireless communication using wireless communication technology such as LTE and wireless LAN. Also, the communication unit 110b may be configured by a device that performs wired communication. The communication unit 110b communicates with an external communication device such as the circuit breaker state collection device 100a via the network 50 . Specifically, the communication unit 110b receives notification information transmitted by the circuit breaker state collection device 100a, and outputs the received notification information to the information processing unit 104b.

The storage unit 108b is implemented by, for example, a RAM, ROM, HDD, flash memory, or a hybrid storage device in which a plurality of these are combined. A program 1082 executed by the information processing unit 104b and an application 1083 are stored in the storage unit 108b.
The program 1082 is, for example, an operating system, which is located between the user or application program and the hardware, provides a standard interface to the user or application program, and at the same time efficiently manages each resource such as hardware. management.
The application 1083 causes the circuit breaker state diagnosis device 100b to receive the notification information transmitted by the circuit breaker state collection device 100a, and the information indicating the closing command normally open contact response time included in the received notification information and the closing command normally open contact response time. and information indicating the closing contact response time. The application 1083 determines whether the circuit breaker 10 is normal based on the information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time acquired by the circuit breaker state diagnosis device 100b. determine whether or not The application 1083 causes the circuit breaker state diagnosis device 100b to output the determination result as to whether the circuit breaker 10 is abnormal to the display 106b.
The application 1083 causes the circuit breaker state diagnosis device 100b to receive the notification information transmitted by the circuit breaker state collection device 100a, and the information indicating the open command normally open contact response time included in the received notification information and the open command normally open contact response time. and information indicating the closing contact response time. The application 1083 determines whether the circuit breaker 10 is normal based on the information indicating the open command normally closed contact response time and the information indicating the open command normally closed contact response time acquired by the circuit breaker state diagnosis device 100b. determine whether or not The application 1083 causes the circuit breaker state diagnosis device 100b to output the determination result as to whether the circuit breaker 10 is abnormal to the display 106b.
The display 106b displays the determination result as to whether or not the circuit breaker 10 is abnormal, which is output by the information processing section 104b.
The operation unit 120 is configured by, for example, a touch panel, detects a touch operation on the screen displayed on the display 106b, and outputs the detection result of the touch operation to the information processing unit 104b.

All or part of the information processing unit 104b is, for example, a software function unit realized by executing a program 1082 and an application 1083 stored in the storage unit 108b by a processor such as a CPU. All or part of the information processing unit 104b may be realized by hardware such as LSI, ASIC, or FPGA, or may be realized by a combination of software function units and hardware.
The information processing unit 104b includes, for example, a reception unit 1046 and a determination unit 1044b.
The reception unit 1046 acquires the notification information output by the communication unit 110b, and acquires the information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time included in the obtained notification information. . Accepting unit 1046 accepts the acquired information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time. Accepting unit 1046 outputs information indicating the accepted closing command normally open contact response time and information indicating the closing command normally closed contact response time to determination unit 1044b.
The reception unit 1046 acquires the notification information output by the communication unit 110b, and acquires the information indicating the open command normally closed contact response time and the information indicating the open command normally closed contact response time included in the obtained notification information. . Accepting unit 1046 accepts the acquired information indicating the open command normally open contact response time and the information indicating the open command normally closed contact response time. The accepting unit 1046 outputs information indicating the accepted open command normally-closed contact response time and information indicating the open command normally-closed contact response time to the determination unit 1044b.

The determination unit 1044b acquires the information indicating the make command normally open contact response time and the information indicating the make command normally closed contact response time output by the receiving unit 1046 . The determination unit 1044b determines whether the circuit breaker 10 is normal based on the acquired information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time.
Specifically, the determination unit 1044b determines the closing command normally open contact response time based on the closing command normally open contact response time threshold and the closing command normally closed contact response time threshold, which are set in advance. If it is less than the contact response time threshold and the closing command normally closed contact response time is less than the closing command normally closed contact response time threshold, it is determined that the circuit breaker 10 is normal. The determining unit 1044b determines that the circuit breaker 10 is Judged as abnormal. Determination unit 1044b outputs the determination result as to whether circuit breaker 10 is abnormal to display 106b.
The determination unit 1044b acquires the information indicating the open command normally closed contact response time output by the receiving unit 1046 and the information indicating the open command normally closed contact response time. The determination unit 1044b determines whether the circuit breaker 10 is normal based on the acquired information indicating the open command normally open contact response time and the information indicating the open command normally closed contact response time.
Specifically, the determination unit 1044b determines whether the open command normally open contact response time is equal to the open command normally open contact based on the preset open command normally open contact response time threshold and the open command normally closed contact response time threshold. If the contact response time threshold is less than the open command normally closed contact response time and the open command normally closed contact response time is less than the open command normally closed contact response time threshold, the circuit breaker 10 is determined to be normal. The determining unit 1044b determines whether the circuit breaker 10 is Judged as abnormal. Determination unit 1044b outputs the determination result as to whether circuit breaker 10 is abnormal to display 106b.

(Operation of circuit breaker status diagnosis system)
The operation of the circuit breaker status diagnosis system will be described separately for the case where the current sensor 5 detects the current flowing through the closing coil 7 and the case where the current sensor 5 detects the current flowing through the opening coil 6 .
(When the current sensor 5 detects the current flowing through the closing coil 7)
FIG. 9 is a sequence chart showing an example of the operation of the circuit breaker condition diagnosis system of the second embodiment.
(Step S21)
The command current detection unit 1041 of the circuit breaker state collection device 100a detects the closing command current output from the input port 103 .
(Step S22)
Command current detection section 1041 outputs information indicating that the input command current has been detected to time measurement section 1043 . The time measuring unit 1043 acquires information indicating that the closing command current output by the command current detecting unit 1041 has been detected, and acquires the date and time when the information indicating that the closing command current has been detected is obtained from the real-time clock 107. . The time measurement unit 1043 stores the date and time when the information indicating that the injection command current was detected is acquired in the storage unit 108a.
Steps S23 to S28 can apply steps S4 to S9 described above. However, in step S<b>25 , time measurement section 1043 outputs information indicating the measured closing command normally open contact response time to creation section 1045 and display 106 . In step S28, time measurement unit 1043 stores information indicating the measured turn-on command normally closed contact response time in storage unit 108a, and outputs it to creation unit 1045 and display 106. FIG.
(Step S29)
The creating unit 1045 acquires the information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time output by the time measuring unit 1043, and indicates the obtained closing command normally open contact response time. information and information indicating the closing command normally closed contact response time, generates notification information addressed to circuit breaker status diagnosis device 100b, and outputs the generated notification information to communication unit 110a.
(Step S30)
The communication unit 110a creates the notification information output by the creation unit 1045, and transmits the created notification information to the circuit breaker condition diagnosis device 100b.
(Step S31)
The communication unit 110b of the circuit breaker state diagnosis device 100b receives the notification information transmitted by the circuit breaker state collection device 100a, and outputs the received notification information to the information processing unit 104b. The reception unit 1046 of the information processing unit 104b acquires the notification information transmitted by the circuit breaker state collection device 100a, and the information indicating the closing command normally open contact response time and the closing command normally closed contact response time included in the acquired notification information. and information indicating the time, and receive the information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time. Receiving unit 1046 stores the received information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time in storage unit 108b and outputs them to determination unit 1044b.
The determination unit 1044b acquires the information indicating the make command normally open contact response time and the information indicating the make command normally closed contact response time output by the receiving unit 1046 . The determination unit 1044b determines whether the circuit breaker 10 is normal based on the acquired information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time. Determination unit 1044b outputs the determination result as to whether circuit breaker 10 is abnormal to display 106b.
(Step S32)
The display 106b acquires the determination result as to whether the circuit breaker 10 is abnormal or not output by the determination unit 1044b, and displays the result by processing the acquired determination result as to whether the circuit breaker 10 is abnormal.
In the flowchart shown in FIG. 9, the order of steps S23 to S25 and steps S26 to S28 may be changed.

(When the current sensor 5 detects the current flowing through the open coil 6)
FIG. 10 is a sequence chart showing an example of the operation of the circuit breaker condition diagnosis system of the second embodiment.
(Step S41)
The command current detection unit 1041 of the circuit breaker state collection device 100a detects the opening command current output from the input port 103 .
(Step S42)
Command current detection section 1041 outputs information indicating that the opening command current has been detected to time measurement section 1043 . The time measurement unit 1043 acquires information indicating that the opening command current output by the command current detection unit 1041 has been detected, and acquires the date and time when the information indicating that the opening command current has been detected is obtained from the real-time clock 107. . The time measurement unit 1043 stores the date and time when the information indicating the detection of the opening command current is acquired in the storage unit 108a.
For steps S43 to S48, steps S13 to S18 described above can be applied.
However, in step S<b>45 , time measurement section 1043 outputs information indicating the measured opening command normally open contact response time to creation section 1045 and display 106 . In step S<b>48 , time measurement unit 1043 stores information indicating the measured open command normally closed contact response time in storage unit 108 a and outputs it to creation unit 1045 and display 106 .
(Step S49)
The creating unit 1045 acquires the information indicating the closing command normally open contact response time and the information indicating the closing command normally closed contact response time output by the time measuring unit 1043, and indicates the obtained closing command normally open contact response time. information and information indicating the closing command normally closed contact response time, generates notification information addressed to circuit breaker status diagnosis device 100b, and outputs the generated notification information to communication unit 110a.
(Step S50)
The communication unit 110a creates the notification information output by the creation unit 1045, and transmits the created notification information to the circuit breaker condition diagnosis device 100b.
(Step S51)
The communication unit 110b of the circuit breaker state diagnosis device 100b receives the notification information transmitted by the circuit breaker state collection device 100a, and outputs the received notification information to the information processing unit 104b. The receiving unit 1046 of the information processing unit 104b acquires the notification information transmitted by the circuit breaker state collection device 100a, and the information indicating the opening command normally closed contact response time and the opening command normally closed contact response time included in the acquired notification information. and the information indicating the time, and receive the information indicating the open command normally open contact response time and the information indicating the open command normally closed contact response time. Receiving unit 1046 stores the received information indicating the open command normally-closed contact response time and the information indicating the open command normally-closed contact response time in storage unit 108b and outputs them to determination unit 1044b.
The determination unit 1044b acquires the information indicating the open command normally closed contact response time output by the receiving unit 1046 and the information indicating the open command normally closed contact response time. The determination unit 1044b determines whether the circuit breaker 10 is normal based on the acquired information indicating the open command normally open contact response time and the information indicating the open command normally closed contact response time. Determination unit 1044b outputs the determination result as to whether circuit breaker 10 is abnormal to display 106b.
(Step S52)
The display 106b acquires the determination result as to whether the circuit breaker 10 is abnormal or not output by the determination unit 1044b, and displays the acquired determination result as to whether the circuit breaker 10 is abnormal or not by processing it.
In the flowchart shown in FIG. 10, the order of steps S43 to S45 and steps S46 to S48 may be changed.

In the above-described second embodiment, the case where the circuit breaker state collection device 100a is permanently installed in the operation box included in the circuit breaker 10 has been described, but this is not the only option. For example, the circuit breaker state collection device 100 a may be attached to the circuit breaker 10 .
In the above-described second embodiment, the circuit breaker state diagnostic device 100b determines whether the circuit breaker 10 is Although the case of determining whether or not the device is normal has been described, the present invention is not limited to this example. For example, the circuit breaker state diagnosis device 100b determines whether the circuit breaker 10 is normal based on either information indicating the opening command normally open contact response time or information indicating the opening command normally closed contact response time. may be determined. Further, for example, the time elapsed from the date and time when the circuit breaker state diagnosis device 100b acquired information indicating that the opening command current was detected to the date and time when the main contact 3 changed from the closed state to the open state, and the closing command The circuit breaker 10 is normal based on one or both of the time elapsed from the date and time when the information indicating that the current was detected was acquired to the date and time when the main contact 3 changed from the open state to the closed state. It may be determined whether
In the above-described second embodiment, the case where the circuit breaker state diagnosis device 100b determines whether or not the circuit breaker 10 is normal has been described, but the present invention is not limited to this example. For example, the circuit breaker state diagnosis device 100b determines whether the circuit breaker 10 is normal or not, and derives the inspection timing of the circuit breaker 10 based on the result of the determination of whether the circuit breaker 10 is normal. You may make it Specifically, when the open command normally open contact response time is less than the open command normally open contact response time threshold value, the determination unit 1044 advances the inspection timing as the difference decreases. , the inspection timing may be delayed as the difference increases. Further, when the open command normally closed contact response time is less than the open command normally closed contact response time threshold value, the determination unit 1044b advances the inspection timing as the difference decreases, and the difference increases. As the size increases, the inspection timing may be delayed.

According to the circuit breaker diagnosis system of the second embodiment, the circuit breaker condition collection device 100a incorporated in the circuit breaker 10 is equipped with the circuit breaker condition collection device 100a and the circuit breaker condition diagnosis device 100b. can be made more compact than the circuit breaker condition diagnosis device 100 of the first embodiment described above. Since the circuit breaker state collection device 100a can be built in the circuit breaker 10, every time the main contact 3 of the circuit breaker 10 changes between the open state and the closing state, the operating time (closing command normally open contact response time, closing command normally-closed contact response time, open command normally-closed contact response time, and open command normally-closed contact response time).
In the past, an oscillograph or waveform recorder was used to record the command current and the state of the main contact, or the normally closed and normally open contacts of the auxiliary switch.
Since the opening/closing operation of the main contact 3 of the circuit breaker 10 (change between the open state and closed state) is fast, during the opening/closing operation of the main contact 3, the auxiliary switch that operates in linkage with the main contact. Chattering may occur in the process of fully closing or fully opening the contacts. The circuit breaker state collection device 100a includes a contact input interface (FL) 101-1 and a contact input interface (FL) 101-2. -2 is equipped with an analog filter and an overvoltage protection circuit, so that noise can be removed. Therefore, the influence of chattering can be reduced.
In the vicinity of the operation box of the circuit breaker, various noises are superimposed on the operation current detection circuit and the contact state detection circuit of the auxiliary switch due to electromagnetic induction from the main circuit and switching surges during switching. The circuit breaker status diagnostic device 100 includes a contact input interface (FL) 101-1, a contact input interface (FL) 101-2, and a current input interface (DT) 102. The contact input interface (FL) 101-1 , the contact input interface (FL) 101-2, and the current input interface (DT) 102 each have an analog filter and an overvoltage protection circuit, so noise can be removed.

<Configuration example>
As one configuration example, a command current detection unit that detects a command current, which is a current that flows through a closing coil and an opening coil of a circuit breaker, and based on the voltage applied between the main contacts of the circuit breaker, the main contact and a time from when the command current detection unit detects the command current until when the switching state detection unit detects a change in the switching state of the main contact. The circuit breaker state diagnosis device includes a time measurement unit that measures a time, and a determination unit that determines the state of the circuit breaker based on the time measured by the time measurement unit.
As one configuration example, a noise removal unit (current input interface (DT) 102 in the embodiment) that performs processing to remove noise from the current flowing through the closing coil and the opening coil of the circuit breaker, and between the main contacts of the circuit breaker a chattering removal unit (contact input interface (FL) 101-1 and contact input interface (FL) 101-2 in the embodiment) that removes chattering from the voltage applied to the command current The detection unit detects a command current that is the current that has been subjected to the noise elimination processing by the noise elimination unit, and the switching state detection unit detects the voltage that has been subjected to the chattering elimination processing by the chattering elimination unit. Based on this, a change in the open/closed state of the main contact is detected.
As one configuration example, the chattering elimination unit performs processing for eliminating chattering from a voltage applied to one or both of a normally open contact and a normally closed contact mechanically linked to the main contact, The open/closed state detection section detects the main contact based on the voltage applied to one or both of the normally open contact and the normally closed contact for which the chattering removal section has performed the chattering removal process. Detects changes in the open/closed state.
As one configuration example, the open/close state detection unit detects a change in voltage caused by a change in the normally open contact between opening and closing and a change in the normally closed contact between closing and opening. A change in the open/close state of the main contact is detected based on either or both of the resulting voltage change.
As one configuration example, a derivation unit is provided for deriving the inspection timing of the circuit breaker based on the determination result of the determination unit.
As one configuration example, a command current detection unit that detects a command current, which is a current that flows through a closing coil and an opening coil of a circuit breaker, and based on the voltage applied between the main contacts of the circuit breaker, the main contact and a time from when the command current detection unit detects the command current until when the switching state detection unit detects a change in the switching state of the main contact. A circuit breaker state diagnosis system comprising: a time measurement unit for measuring; and a determination unit for determining the state of the circuit breaker based on the time measured by the time measurement unit.

Although the embodiments have been described above, these embodiments are presented as examples and are not intended to limit the scope of the invention. These embodiments can be implemented in various other forms, and various omissions, replacements, changes, and combinations can be made without departing from the scope of the invention. These embodiments are included in the scope and gist of the invention, and at the same time, are included in the scope of the invention described in the claims and equivalents thereof.
The circuit breaker condition diagnosis device 100, the circuit breaker condition collection device 100a, and the circuit breaker condition diagnosis device 100b described above may be realized by a computer. In that case, a program for realizing the function of each functional block is recorded in a computer-readable recording medium. The program recorded on this recording medium may be loaded into the computer system and executed by the CPU. The "computer system" here includes hardware such as an OS (Operating System) and peripheral devices.
A "computer-readable recording medium" refers to a portable medium such as a flexible disk, a magneto-optical disk, a ROM, and a CD-ROM. A "computer-readable recording medium" includes a storage device such as a hard disk built into a computer system.
Furthermore, the "computer-readable recording medium" may include those that dynamically retain the program for a short period of time. For a short period of time, a program is dynamically stored in a communication line for transmitting a program via a network such as the Internet or a communication line such as a telephone line.
In addition, the "computer-readable recording medium" may also include a medium that retains the program for a certain period of time, such as a volatile memory inside a computer system that serves as a server or client. Further, the program may be for realizing part of the functions described above. Moreover, the above program may be one that can realize the functions described above in combination with a program already recorded in a computer system. Moreover, the program may be implemented using a programmable logic device. A programmable logic device is, for example, an FPGA (Field Programmable Gate Array).

The circuit breaker state diagnosis device 100, the circuit breaker state collection device 100a, and the circuit breaker state diagnosis device 100b described above have computers therein. The processes of the circuit breaker state diagnosis device 100, the circuit breaker state collection device 100a, and the circuit breaker state diagnosis device 100b described above are stored in a computer-readable recording medium in the form of a program. The above processing is performed by the computer reading and executing this program.
Here, the computer-readable recording medium refers to magnetic disks, magneto-optical disks, CD-ROMs, DVD-ROMs, semiconductor memories, and the like. Alternatively, the computer program may be distributed to a computer via a communication line, and the computer receiving the distribution may execute the program.
Further, the program may be for realizing part of the functions described above.
Furthermore, it may be a so-called difference file (difference program) that can realize the above-described functions in combination with a program already recorded in the computer system.

1-1, 1-2... bushing, 2-1, 2-2... main circuit conductor, 3... main contact, 4a... normally open contact, 4b... normally closed contact, 5... current sensor, 6... open coil, 7 ... closing coil, 8 ... control power supply, 9 ... circuit breaker, 10 ... circuit breaker, 50 ... network, 100 ... circuit breaker state diagnosis device, 100a ... circuit breaker state collection device, 100b ... circuit breaker state diagnosis device, 101-1 , 101-2... contact input interface, 102... current input interface, 103... input port, 104, 104a, 104b... information processing unit, 105... operating state monitoring unit, 106, 106b... display, 107... real-time clock, 108, 108a, 108b... storage unit 109... output port 110a, 110b... communication unit 120... operation unit 1041... command current detection unit 1042... opening/closing state detection unit 1043... time measurement unit 1044, 1044b... determination unit , 1045... creation unit, 1046... reception unit, 1081, 1081a, 1082... program, 1083... application

Claims (8)

a command current detection unit that detects a command current that is the current flowing through the closing coil and the opening coil of the circuit breaker;
an open/close state detection unit that detects a change in the open/close state of the main contact based on the voltage applied between the auxiliary switch contacts that open and close in conjunction with the main contact of the circuit breaker;
Time measurement for measuring the time from when the command current detection unit detects the command current until when the switching state detection unit detects a change in the switching state of an auxiliary switch contact that opens and closes in conjunction with the main contact. Department and
a determination unit that determines the state of the circuit breaker based on the time measured by the time measurement unit;
with
The auxiliary switch has a normally open contact that is open when the main contact is open and closed when the main contact is closed, and a normally open contact that is closed when the main contact is open. a normally closed contact that is open when the main contact is in the closed state;
The time measuring unit detects that the normally open contact has changed from open to closed by the switching state detecting unit from the date and time when the command current detecting unit detects the command current, which is the current flowing through the closing coil. The opening command normally open contact response time or the opening command normally open contact response time is measured until the date and time the command current detection unit detects the command current, which is the current flowing in the open coil. Measure the close command normally closed contact response time or the open command normally closed contact response time until the date and time when the change of the normally closed contact from closed to open is detected by the unit,
The determination unit determines whether the closing command normally open contact response time is equal to the closing command normally open contact response time based on a closing command normally open contact response time threshold and a closing command normally closed contact response time threshold, which are set in advance. If the closing command normally closed contact response time is less than the threshold and the closing command normally closed contact response time is less than the closing command normally closed contact response time threshold, the circuit breaker is determined to be normal, and the closing command normally closed contact response time If the make command normally closed contact response time threshold or more or the make command normally closed contact response time is equal to or more than the make command normally closed contact response time threshold, it is determined that the circuit breaker is abnormal. Based on the open command normally open contact response time threshold and the open command normally closed contact response time threshold, the open command normally open contact response time is less than the open command normally open contact response time threshold, and the open determining that the circuit breaker is normal when the command normally closed contact response time is less than the open command normally closed contact response time threshold, and determining that the open command normally closed contact response time is the open command normally open contact response time; A circuit breaker state diagnostic device that determines that the circuit breaker is abnormal when the response time of the open command normally closed contact is equal to or greater than a threshold or when the response time of the open command normally closed contact is equal to or greater than the threshold of the response time of the open command normally closed contact. a noise removal unit that removes noise from the current flowing through the closing coil and the opening coil of the circuit breaker;
a chattering removal unit that removes chattering from the voltage applied between the auxiliary switch contacts that open and close in conjunction with the main contacts of the circuit breaker,
The command current detection unit detects a command current, which is the current subjected to the noise removal processing by the noise removal unit,
The open/closed state detector detects a change in the open/closed state of the auxiliary switch contact that opens/closes in conjunction with the main contact, based on the voltage that has been subjected to the chattering removal process by the chattering remover. Item 2. The circuit breaker condition diagnosis device according to item 1. The chattering elimination unit performs a process of eliminating chattering from a voltage applied to one or both of a normally open contact and a normally closed contact mechanically linked to the main contact,
The open/closed state detection section detects the main contact based on the voltage applied to one or both of the normally open contact and the normally closed contact subjected to the chattering removal process by the chattering removal section. 3. The circuit breaker state diagnostic device according to claim 2, which detects a change in the open/closed state of the. The open/close state detection unit detects a change in voltage caused by the change between the open and closed states of the normally open contact and a change in voltage caused by the change between the closed and open states of the normally closed contact. 4. The circuit breaker state diagnosis device according to claim 3, wherein a change in the switching state of said main contact is detected based on either one or both of the above. The circuit breaker condition diagnosis device according to any one of claims 1 to 4, further comprising: a derivation unit that derives an inspection time for the circuit breaker based on a determination result of the determination unit. a command current detection unit that detects a command current that is the current flowing through the closing coil and the opening coil of the circuit breaker;
an open/close state detection unit that detects a change in the open/close state of the main contact based on the voltage applied between the auxiliary switch contacts that open and close in conjunction with the main contact of the circuit breaker;
Time measurement for measuring the time from when the command current detection unit detects the command current until when the switching state detection unit detects a change in the switching state of an auxiliary switch contact that opens and closes in conjunction with the main contact. Department and
a determination unit that determines the state of the circuit breaker based on the time measured by the time measurement unit;
with
The auxiliary switch has a normally open contact that is open when the main contact is open and closed when the main contact is closed, and a normally open contact that is closed when the main contact is open. a normally closed contact that is open when the main contact is in the closed state;
The time measuring unit detects that the normally open contact has changed from open to closed by the switching state detecting unit from the date and time when the command current detecting unit detects the command current, which is the current flowing through the closing coil. The opening command normally open contact response time or the opening command normally open contact response time is measured until the date and time the command current detection unit detects the command current, which is the current flowing in the open coil. Measure the close command normally closed contact response time or the open command normally closed contact response time until the date and time when the change of the normally closed contact from closed to open is detected by the unit,
The determination unit determines whether the closing command normally open contact response time is equal to the closing command normally open contact response time based on a closing command normally open contact response time threshold and a closing command normally closed contact response time threshold, which are set in advance. If the closing command normally closed contact response time is less than the threshold and the closing command normally closed contact response time is less than the closing command normally closed contact response time threshold, the circuit breaker is determined to be normal, and the closing command normally closed contact response time If the make command normally closed contact response time threshold or more or the make command normally closed contact response time is equal to or more than the make command normally closed contact response time threshold, it is determined that the circuit breaker is abnormal. Based on the open command normally open contact response time threshold and the open command normally closed contact response time threshold, the open command normally open contact response time is less than the open command normally open contact response time threshold, and the open determining that the circuit breaker is normal when the command normally closed contact response time is less than the open command normally closed contact response time threshold, and determining that the open command normally closed contact response time is the open command normally open contact response time; A circuit breaker status diagnosis system that determines that the circuit breaker is abnormal when it is equal to or greater than a threshold or when the opening command normally closed contact response time is equal to or greater than the open command normally closed contact response time threshold. A circuit breaker state diagnosis method executed by a circuit breaker state diagnosis device,
a step of detecting a command current, which is the current flowing through the closing coil and the opening coil of the circuit breaker;
detecting a change in the switching state of the main contact based on the voltage applied between the auxiliary switch contacts that open and close in conjunction with the main contact of the circuit breaker;
In the step of detecting the command current, the command current is detected, and in the step of detecting the switching state, the change in the switching state of the auxiliary switch contact that opens and closes in conjunction with the main contact is detected. measuring the time;
determining the state of the circuit breaker based on the time measured in the step of measuring the time ;
The auxiliary switch has a normally open contact that is open when the main contact is open and closed when the main contact is closed, and a normally open contact that is closed when the main contact is open. a normally closed contact that is open when the main contact is in the closed state;
In the step of measuring the time, from the date and time when the command current, which is the current flowing in the closing coil, is detected in the step of detecting the command current, the step of detecting the change in the open/close state causes the normally open contact to open. The step of measuring the close command normally open contact response time or the open command normally open contact response time until the date and time when the change to the closed state is detected, and the command current, which is the current flowing in the open coil, is detected by the step of detecting the command current. Closing command normally closed contact response time or opening command normally closed contact response time from the detected date and time to the date and time when the change of the normally closed contact from closed to open is detected by the step of detecting a change in the switching state to measure
In the determining step, the closing command normally open contact response time is determined based on the closing command normally open contact response time threshold and the closing command normally closed contact response time threshold, which are set in advance. determining that the circuit breaker is normal when the closing command normally closed contact response time is less than the closing command normally closed contact response time threshold, and the closing command normally closed contact response time is less than the time threshold; is equal to or greater than the closing command normally-closed contact response time threshold, or the closing command normally-closed contact response time is equal to or greater than the closing command normally-closed contact response time threshold, it is determined that the circuit breaker is abnormal, and preset The open command normally open contact response time is less than the open command normally open contact response time threshold, and the determining that the circuit breaker is normal when the open command normally closed contact response time is less than the open command normally closed contact response time threshold, and determining that the open command normally closed contact response time is the open command normally closed contact response A circuit breaker state diagnosis method for determining that the circuit breaker is abnormal when a time threshold or longer or when the open command normally closed contact response time is longer than or equal to the open command normally closed contact response time threshold. to the computer,
a step of detecting a command current, which is the current flowing through the closing coil and the opening coil of the circuit breaker;
detecting a change in the switching state of the main contact based on the voltage applied between the auxiliary switch contacts that open and close in conjunction with the main contact of the circuit breaker;
In the step of detecting the command current, the command current is detected, and in the step of detecting the switching state, the change in the switching state of the auxiliary switch contact that opens and closes in conjunction with the main contact is detected. measuring the time;
determining the state of the circuit breaker based on the time measured in the step of measuring the time ; and
The auxiliary switch has a normally open contact that is open when the main contact is open and closed when the main contact is closed, and a normally open contact that is closed when the main contact is open. a normally closed contact that is open when the main contact is in the closed state;
to said computer;
In the step of measuring the time, from the date and time when the command current, which is the current flowing in the closing coil, is detected in the step of detecting the command current, the step of detecting the change in the open/close state causes the normally open contact to open. The step of measuring the close command normally open contact response time or the open command normally open contact response time until the date and time when the change to the closed state is detected, and the command current, which is the current flowing in the open coil, is detected by the step of detecting the command current. Closing command normally closed contact response time or opening command normally closed contact response time from the detected date and time to the date and time when the change of the normally closed contact from closed to open is detected by the step of detecting a change in the switching state to measure
In the determining step, the closing command normally open contact response time is determined based on the closing command normally open contact response time threshold and the closing command normally closed contact response time threshold, which are set in advance. determining that the circuit breaker is normal when the closing command normally closed contact response time is less than the closing command normally closed contact response time threshold, and the closing command normally closed contact response time is less than the time threshold; is equal to or greater than the closing command normally-closed contact response time threshold, or the closing command normally-closed contact response time is equal to or greater than the closing command normally-closed contact response time threshold, the circuit breaker is determined to be abnormal, and preset The open command normally open contact response time is less than the open command normally open contact response time threshold, and the If the open command normally closed contact response time is less than the open command normally closed contact response time threshold, the circuit breaker is determined to be normal, and the open command normally closed contact response time is determined to respond to the open command normally closed contact. A program for determining that the circuit breaker is abnormal when a time threshold or more or when the opening command normally closed contact response time is greater than or equal to the opening command normally closed contact response time threshold.

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