JPH10341523A - Digital protective relay - Google Patents

Abstract

PROBLEM TO BE SOLVED: To indicate all the indication signals without removing a front cover, by indicating specified plural indication signals cyclically when an indication switching means is set in automatic position, and indicating a designated specified indication signal when it is set in manual position. SOLUTION: In case that the contents of an indication changeover switch 4 are automatic, this digital protective relay indicates the indication value stored in an indication content memory when it comes to indication switching time, and this decides to indicate a signal over again cyclically in the order of indication signal 1indication signal 4 to be indicated next, and stores it and updates it. Next, in case of manual, this indicates the value of the indication signal 1 on the indicator 3 in case that for example, the indication signal 1 is set. These specified indication signal 1-indication signal 4 indicate, taking the case of a ground directional relay, the measured values such that the indication signal 1 is the present zero-phase current value, that the indication signal 2 is the maximum value of the zero-phase current, that the indication signal 3 is the present zero-phase voltage value, and that the indication signal 4 is the maximum value of the zero-phase voltage.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a digital protection relay, and more particularly, to a digital protection relay having a display for displaying an abnormal display by self-diagnosis and a plurality of specified display signals.

[0002]

2. Description of the Related Art In a normal digital protection relay, a front cover is attached to a front operation panel in order to house a relay circuit in a main body case and to provide a structure for preventing erroneous operation and dust. In such a digital protection relay,
When there are a plurality of specific display signals to be displayed and a display cannot be provided for each display signal, a display changeover switch is provided, the changeover switch is switched, and a specific display signal is designated, so that a desired display signal ( (Measured value) is displayed on the display unit.

The switching operation of the display changeover switch is performed manually by removing the front cover.

FIG. 4 is a perspective view of the digital protection relay main body as viewed from the front, in which 30 is a main body case, 31 is an operation panel unit provided on the front surface, and an input circuit unit constituting the digital protection relay inside. An arithmetic processing unit including a microcomputer, a memory, and the like is attached and housed in the main body case 30.

The operation panel 31 on the front has a display section 32 composed of, for example, 7-segment LEDs for displaying a display signal such as a measured value and an abnormality, and a display changeover switch 3.
3 are provided. The display changeover switch 33 specifies (sets) a specific display signal to be displayed, for example, the current value and the maximum value of the zero-phase current and the zero-phase voltage in the case of a ground fault relay, and displays the measured value. In addition, in the overcurrent relay, switching of the R-phase and T-phase load currents, in the overvoltage or undervoltage relay, the current value and the maximum value of the voltage,
It is configured to switch and display the measured value necessary for monitoring the minimum value and the like.

Reference numerals 34a, 34b and 34c denote setting changeover switches for setting the set values. In a ground fault directional relay, the zero-phase current value, the zero-phase voltage value, the operation time and the like are set to arbitrary values. In the overcurrent relay, the time limit current, the instantaneous current, and the like are switched and set. An operation display 35 displays when the relay operates. A front cover 36 is attached to the front of the main body case 30.

Reference numeral 34d denotes a test switch, and 34e denotes a return switch.

[0008]

When it is desired to selectively display a specific measured value (display signal), it is necessary to switch the display changeover switch one by one. You have to do it manually.

The switching operation with the front lid 36 removed has a problem that it takes a lot of trouble when a large number of digital protective relays are installed.

When a relay has a self-diagnosis function, an abnormality display inside the relay is often indicated by a light-emitting diode. However, the display with the light-emitting diode merely indicates an abnormality and includes details of the abnormality. Cannot be displayed.

Therefore, it is conceivable to provide an abnormality display section in the display changeover switch to display the contents of the abnormality on the display section 32. However, if the display changeover switch is not at the position of the abnormality display section, it is not possible to display the abnormality. However, when the display is switched to the abnormal display section, there is a problem that a specific display signal (measured value) cannot be displayed.

The present invention has been made in view of such a conventional problem, and it is possible to display all display signals (measured values) without removing a front cover and to determine a position of a display changeover switch. However, an object of the present invention is to provide a protection relay of this type having a self-diagnosis function capable of displaying the content of the abnormality when an abnormality occurs in the relay.

[0013]

In the present invention, a means for solving the above-mentioned problems is provided by a display switching means for setting a display by switching between automatic and manual display on a front operation panel unit, When is set to the automatic position, the specified display signals (measured values) are cyclically displayed on the display unit, and when set to the manual position, the specified specific display signal is displayed. Next, the arithmetic processing is performed by an arithmetic processing unit built in the relay.

When an abnormality occurs in the self-diagnosis section, the contents of the abnormality are displayed regardless of the set position of the display switching means, and thereafter, it is determined whether or not the set position has been changed. If the setting has not been changed, the display of the error content is continued.If the setting has been changed, the content of the error is displayed on the display when the set position is automatic, and if the set position is manual, the specified specific display signal is displayed. The arithmetic processing is performed so as to be displayed on the display unit.

[0015]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a conceptual block diagram of the present invention. Reference numeral 1 denotes an input circuit unit, which includes a filter, an analog multiplexer, an A /
A plurality of input signals a, b, c... N such as a plurality of system electric quantities necessary for performing a protection operation are input, and the output is input to the arithmetic processing unit 2 as a digital signal. The arithmetic processing unit 2 includes a microcomputer unit and the like. The microcomputer unit inputs a system electric quantity input signal (data) to perform a protection relay operation determination, and uses the determination result and system equipment information to perform a protection sequence. Perform processing.

A display unit 3 corresponds to the display unit 32 shown in FIG. Reference numeral 4 denotes a display changeover switch as a display changeover means, which switches and sets a specific display signal (measured value) to be displayed on the display unit. The content of the changeover switch is to automatically switch between the display signal 1 and the display signal 4 as shown in FIG. For convenience of explanation, the selection of the display signal 1 to the display signal 4 will be generally described as "manual".

The specific display signals 1 to 4 differ depending on the type of the relay. In the case of a ground fault directional relay, for example, the display signal 1 is the current zero-phase current value, and the display signal 2 is the zero-phase current. The maximum value, the display signal 3 indicates a current zero-phase voltage value, and the display signal 4 indicates a measured value such as the maximum value of the zero-phase voltage. Also, for the abnormal display, determine the signal in advance,
In addition, the contents of the abnormality are represented by numerical values. FIG. 2 is a conceptual diagram of a processing flow of a general digital protection relay that is processed by an input circuit unit and an arithmetic processing unit. In the arithmetic processing unit, a protection relay is provided. A processing program 20 is incorporated. Initialization is performed in step 21, time count processing is performed in step 22, signal input processing is performed in step 23,
In step 24, display processing is performed, and in step 25, detection as a digital protection relay described above and other processing are performed. After these series of processes are completed, the process returns to the time count processing unit to perform a loop process. The present invention uses this step 2
4 relates to the display processing.

FIG. 3 is a processing flow of the display processing of the present invention. The display processing means will be described with this processing flow.

In the display process, first, in step S1, the content of the display changeover switch 4, that is, the position where the display is set to be automatic or manual (a specific set display signal) is read.
Next, when abnormality diagnosis is being performed, is it determined in step S2 whether abnormality has been detected by a self-diagnosis function (usually provided in the relay circuit and self-diagnosed at predetermined time intervals, for example, once a day) It is determined whether or not there is no abnormality, and in step S3, the contents of the display changeover switch read in step 1 are determined.

If the content of the display changeover switch is automatic, it is determined in step S4 whether or not the display changeover time has come.
(Since the display contents are displayed continuously for a predetermined time, the next display contents are displayed after the elapse of the time.) When the display switching time is reached, the display switching time is reset in step S5 and displayed in step S6. The display value stored in the content memory is displayed. What is displayed is stored in the memory and is displayed according to the value. In step S7, the value of the display content memory is updated. For example, the display signal 1 to the display signal 4 to be displayed next are determined and stored so as to be sequentially and repeatedly displayed in the order of the display signals 1 to 4, and are updated.

Next, if manual is determined in step S3, which display signal is designated (set) by the display changeover switch.
It is determined in steps S8 to S11 whether the display signal has been set. For example, when the display signal 1 is set, the value of the display signal 1 is displayed on the display unit.

Next, if there is an abnormality in the self-diagnosis in step S2, it is determined in step S12 whether or not the display changeover switch has been changed (whether or not the display changeover switch has been moved after the display of the abnormality has occurred). If there is no change,
The position of the display changeover switch at that time is stored in step S15, and the content of the abnormality is displayed in step S14. That is,
If the display changeover switch is not switched, the content of the abnormality is displayed on the display unit whether it is manual or automatic.

After the display of the abnormality, the display changeover switch is switched to the display signal having the abnormality. For example, when there is an abnormality at the automatic position, and when the display signal 4 has an abnormality, the display changeover switch is manually operated. Is switched to the display signal 4, the change is determined by comparing with the position of the display changeover switch before the change (stored in step S15) in the next loop processing, and the process proceeds from step S13 to steps S8 to S11.
The set display signal 4 is displayed on the display unit. Therefore,
It is possible to know which display signal is abnormal from the content of the abnormality, and when the display changeover switch sequentially switches the display signals 1 to 4, the display signal including the display signal of the abnormal circuit is displayed.

If there is no abnormality, the process returns to step S3 during the next loop processing and automatically returns to the normal display function.

As described above, if the display changeover switch is set to automatic, if the above-mentioned ground fault direction relay is used, the zero-phase current value-the maximum value of the zero-phase current-the zero-phase voltage value-the maximum zero-phase voltage The value-zero-phase current value and the measurement value to be monitored are cyclically displayed on the display unit, and when it is desired to monitor a specific measurement signal, it can be constantly monitored by setting the display signal.

If an abnormality occurs during the self-diagnosis, the content of the abnormality is displayed on the display unit regardless of the set position of the display changeover switch. This is not limited to a ground fault directional relay, and a digital type overcurrent relay can also perform display processing for overvoltage or undervoltage.

[0028]

As described above, according to the present invention, a plurality of display signals (measured values) to be displayed are cyclically displayed if the display changeover switch provided on the operation panel is automatically set. It is not necessary to open the front cover of the main body case and switch the changeover switch to display the display signal. Therefore, there is no danger of accidentally pressing the test switch and tripping when opening the front lid. Also, no trouble is caused by accidentally operating another setting changeover switch.

Further, when an internal abnormality occurs while the plurality of display signals are displayed cyclically, the details of the abnormality are automatically displayed on the display unit, so that the countermeasure can be taken promptly.

Further, by switching the display changeover switch to manual in an abnormal state, an abnormal display signal (measured value) can be confirmed, and the content of the abnormality can be determined. I can understand. At this time, since the value of the abnormal signal can also be read, an extremely excellent effect is exhibited, such as being useful for analyzing a failed portion or the like.

[Brief description of the drawings]

FIG. 1 is a conceptual block diagram of the present invention.

FIG. 2 is a processing flow of a digital protection relay.

FIG. 3 is a processing flow of display processing of the present invention.

FIG. 4 is an external perspective view of a digital protection relay.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Input circuit part 2 ... Operation processing part 3 ... Display part 4 ... Display switching means.

 ────────────────────────────────────────────────── ─── Continued on the front page (72) Inventor Ichiro Tamai 7-4-14 Ginza, Chuo-ku, Tokyo

Claims (3)

[Claims] 1. An input circuit unit for converting an analog input signal into a digital signal and inputting the digital signal to an arithmetic processing unit, and an arithmetic processing unit for arithmetically processing an input signal from the input circuit unit to perform display processing and operation determination of a relay. A digital protection relay including a display unit for displaying an abnormal display and a specific display signal on an operation panel unit on a front surface of the main body case while accommodating the input circuit unit and the arithmetic processing unit in the main body case. A display switching means for setting the display on the panel by switching between automatic and manual, a means for reading a set position of the display switching means, and a display switching time when the set position is automatic is determined. Means for displaying the display signal stored in the display content memory; means for updating the display content after a predetermined display time; Digital protection relay, characterized means for repeating a signal, that the set position of the is provided with a means for displaying to determine the specific display signal designated when the manual. 2. An input circuit section for converting an analog input signal into a digital signal and inputting the digital signal to an arithmetic processing section, and an arithmetic processing section for performing arithmetic processing on an input signal from the input circuit section to perform display processing and operation determination of a relay. A digital protection relay including a display unit for displaying an abnormal display and a specific display signal on an operation panel unit on a front surface of the main body case while accommodating the input circuit unit and the arithmetic processing unit in the main body case. Display switching means for setting the display on the panel by switching between automatic and means, and means for reading the position of the set of the display switching means, and after reading the position of this set,
Means for determining the presence or absence of an abnormal signal of self-diagnosis, and, in the event that there is an abnormality in this determination means, no matter where the set position of the display switching means is located, displaying the content of the abnormality on the display unit
If the set position of the display switching means is not changed after displaying the content of the abnormality, the display of the content of the abnormality is continued, and if it is changed, it is determined whether or not the set position of the display switching means is automatic. Means for displaying the contents of the abnormality on the display unit and displaying a specific display signal set when the operation is manual, and displaying the abnormality. 3. A means for judging whether or not the self-diagnosis is abnormal after reading the set position, means for judging whether the set position of the display switching means is automatic or manual when there is no abnormal signal. Means for judging the display switching time when automatic and displaying the display signal stored in the display content memory at the time of the switching; means for updating the display content after a predetermined display time; 3. The digital protection relay according to claim 2, further comprising: means for repeating a display signal; and means for discriminating and displaying a specified specific display signal when the set position is manual.