JP2816077B2 - How to display the set value of the device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for displaying a set value of a device such as a digital protection relay.

[0002]

2. Description of the Related Art A conventional digital protection relay is disclosed in Electric Cooperative Research Vol. 4 No. 4; Digital Relay issued by the Society of Electric Cooperative Research. Figure 1
Description will be made based on 0. In FIG. 10, reference numeral 11 denotes an input converter for converting an input amount such as current or voltage of a power system input to an arithmetic digital relay into an appropriate voltage, and 12 denotes a harmonic component included in an output of the input converter 11. A filter circuit for extracting a fundamental frequency such as 50 Hz or 60 Hz of the power system by removing the filter circuit, a sample and hold circuit 13 for holding an output value of the filter circuit 12 at a sampling time, and a multiplexed output from the sample and hold circuit 13 A multiplexer circuit 15 is an analog-to-digital converter that quantizes the output of the multiplexer circuit 14 and converts it into time data based on a digital amount. A microprocessor random access memory 16 is formed by a read-on memory or the like. Generates a control signal by calculating the time data from And an output interface circuit 17 for converting a logic level control signal output from the arithmetic processing unit 16 into a control signal of a level capable of driving a relay, and an output interface circuit 18 driven by a control signal from the output interface circuit 17. The excitation coil 19 is a contact that is opened and closed by the excitation coil 18.

FIG. 11 is a diagram showing an example of an operation panel in a digital protection relay using the above-mentioned conventional microprocessor. In this figure, this operation panel is
Item number display section 20, setting value / measurement value display section 21, setting item selection switch 22, selection value selection switch 23, up / down selection switch 24, write switch 25, operation switch 26, forced operation switch 27, execution switch 28, end Operation units such as a switch 29, a setting display switch 30, a service display switch 31, a display reset switch 32, and a CPU reset switch 33 are provided. Note that the display of each switch (eg, hatching) is different, indicating that a switch of a type adapted to the function is being used.

FIG. 12 is a flowchart showing a method of setting a set value in a digital protection relay using the above-mentioned conventional microprocessor. In the figure, at step St31, the user presses the setting item selection switch 22 to select the setting item to be changed, and at step St32, presses the up / down selection switch 24 to select the element of the setting item to be changed. In step St33, it is determined whether or not the element selection is OK. If the element selection is OK, it is confirmed whether or not to settle in step St34. If the setting is to be performed, the setting value selection switch 23 is pressed in step St35, and the up and down selection is performed in step St36. Press switch 24 to select the set value. Step St3
It is checked whether the set value is the target set value in Step 7, and if the set value selected in Step St36 is the target set value, Step St3
In step 8, the write switch 25 is pressed to reserve the changed set value. In step St39, it is confirmed whether the change of the set value is completed. If the change is completed, the operation switch 26 is pressed in step St40 to store the reserved set value in the memory. Remember. That is, in this setting method, by pressing the setting item selection switch 22 and pressing the up / down selection switch 24, the setting item to be changed and set is selected and set. After the setting is completed, all the set values are individually displayed on the display. To check the set value. FIG. 13 shows an example of LED display corresponding to each step of the flowchart of FIG.

FIG. 14 is a flowchart showing a conventional set value. In the figure, step St40
Are displayed in the order in which the set values are determined. When all the elements have been displayed in step St, the process ends.

Next, step St4 in FIG.
FIG. 15 shows a method of displaying set values of 0 in a basic order.
In the following description, the setting value of item number 1 is always displayed, the setting value of item number 8 is displayed, and the process ends. Here, even if the set values of the item numbers 2, 7, and 5 are changed, in the conventional method of displaying the set values, the set value of the item number 1 to the set value of the item number 8 are also sequentially displayed, and the process ends. I was Note that FIG. 15 shows current A, B, C, voltage A,
The items described as B and C and the phase angles A and B are various items settled by an actual single relay depending on the model. For example, in the case of a current, the phase currents I _A , I _B , I _c , and the voltage V _AB ,
V _BC, V _CA, is indicative that the phase angle _{I A -V AB, I B -V} AB , etc., rather than that current A represents the what do with voltage B, exhibited settling item It's just As an example, in the case of a motor protection relay, the setting items include the operating time of the overload element, the operating time of the restraining element, the operating current and operating time of the short-circuit element, the operating current and operating time of the unbalanced current element, and the operation of the undervoltage element. There are nine setting items: time, operating current and operating time of the ground fault element.

[0007]

A method for setting a set value in a digital protection relay using a conventional microprocessor, that is, pressing a setting item selection switch 22 and an up / down selection switch 24 as shown in FIG. In the method in which the setting item to be changed and set is selected and settling is performed, and after the setting is completed, all the set values are individually displayed on the display so that the set value can be confirmed. Suppose there is. In this conventional setting method, before and after the setting value is changed, the setting display switch 30 is sequentially pressed from the current A to the phase angle B in the table of FIG. According to this conventional method, when, for example, the value of the phase angle B in the setting item table as shown in FIG. 15 is changed and confirmed, the value of the current A in the setting item table is sequentially displayed and the value is set to the value of the phase angle B. There is an inconvenience that the display switch 30 must be pressed many times.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and provides a method of displaying a set value of a device for displaying values to be confirmed in an easy-to-confirm order, such as after a change of the set value. With the goal.

[0009]

According to a first aspect of the present invention, there is provided a method for displaying a set value of a device, comprising: changing a magnitude of a set value for each of a plurality of set items in the device; Are displayed individually on the display unit, the setting values of the changed setting items are displayed in the reverse order of the setting items, and the setting values are not changed after that. The set values of the set items are displayed in sequence.

According to a second aspect of the present invention, there is provided a method of displaying a set value of a device, wherein, among the set items whose set values have been changed, the set values of the set items changed in the order of change are displayed in the order of change, and then changed. The setting values of the missing setting items are displayed sequentially.

According to the method of displaying a set value of a device according to the present invention, among the set items whose set values have been changed, the set value of the last set item is set in accordance with a preset basic order. The set values are sequentially displayed, and one set value corresponding to the set item is displayed.

[0012]

According to the first aspect of the present invention, when confirming the changed set values, the changed set values are displayed in order from the latest set value remaining in the memory to the oldest set value. That is, the set values are displayed in the reverse order of the change order.

In the method according to the second aspect, when confirming the changed set values, the set values are displayed in the order of the change.

In the method according to the third aspect, the set value changed last is displayed first, and then displayed in the basic order. Therefore, the display starts from the most desired value after the set value is changed. Thereafter, only one set value is displayed in the basic order.

[0015]

【Example】

Embodiment 1 FIG. Hereinafter, a first embodiment of the present invention will be described with reference to FIG.
In FIG. 1, when the process of displaying the set value starts, step S is executed.
At t1, it is checked whether the set value has been changed.
When the set value is changed, the changed set value and the unchanged set value are not changed until the fixed time at which it is desired to confirm the changed set value after the set value is changed in Step St2. Make a distinction. If the set value has been changed within a certain period of time, the process proceeds to step St3.
Are displayed in reverse order from the setting value of the setting item that was most recently changed. This will be described with reference to the example of FIG. 15 described above. Assuming that the set values are changed in the order of item numbers 2, 7, and 4, in step St3, the display is performed in the order of item numbers 4, 7, and 2. Is displayed. Then, in step St4, the set values that have not been changed are sequentially displayed with the changed set values skipped. That is, using the above example, the display of the set values is indicated by item numbers 1, 3, and 3 in FIG.
The order is 5, 6, 8. If the set value has not been changed, or if the set value that has been changed for confirmation has passed a predetermined time provided to distinguish it from the unchanged set value even if the set value has been changed, the process proceeds to step St5. Displays the set values in basic order. The basic order is to display set values in order from set items 1 to 8 using the example of FIG. Finally, Step St
After displaying the set values of all the set items in 6, the set value display is terminated.

Step St3 will be described in detail with reference to FIGS. 2 and 3. If there is no change in the same data table as in FIG. 15, as shown in FIG. The set values are displayed in order. And FIG.
2 until the write switch 25 is pressed.
The set value of the voltage C is changed as shown in FIG. Similarly, when the set value is changed in the order of the phase angle B and the current B and the end switch 29 in FIG. 8 is pressed, as shown in FIG. 3A, the set value of the last set item is changed in order from the set value of the last set item. It is stored as a data table M1. The data table to be displayed is displayed from the changed data table M1 as shown in FIG. 3B, and thereafter, the data that has not been changed is sequentially displayed.

In short, according to the first embodiment, by adopting the function of step St3 in FIG. 1, when confirming the changed set value, the display is confirmed in the order of the new set value remaining in the memory. This has the advantage of being very easy to operate at the time of testing and confirmation, and can be checked from the latest change data with a high possibility of re-change, thereby shortening the time for setting change.

Embodiment 2 FIG. According to the second embodiment, when the set value display process starts as shown in FIG. 4, it is checked in step St11 whether or not the set value has been changed. Confirms whether or not the set value is changed within a predetermined time in step St12.
The set values of the set items changed at t13 are displayed in the order in which they were changed. This will be described with reference to the example of FIG. 15. If the set values of item numbers 2, 8, and 4 are changed,
In step St13, the display method is displayed in the order of item numbers 2, 8, and 4 in FIG. And step S
The set values that have not been changed at t14 are sequentially displayed, skipping the changed set values. Also, if the set value has not been changed, or even if it has been changed, if the set time that has been changed for confirmation has passed a certain time provided to distinguish it from the unchanged set value, step St
At 15, the set values are displayed in the basic order. And
Finally, after displaying the set values of all the set items in Step St6, the set value display is terminated.

The above-mentioned step St13 will be described in detail with reference to FIGS. 5 and 6. If there is no change in the same data table as in FIG. 15, the set values are sequentially changed from the top as shown in FIG. Display. Then, the operation until the write switch 25 in FIG. 11 is pressed is performed, and the set value of the voltage C is changed as shown in FIG. Similarly, the set value is changed in the order of the phase angle B and the current B, and the end switch 29 in FIG.
When is pressed, as shown in FIG. 6A, the set values of the changed set items are stored in the order of the set values as the data table M2.
The data table to be displayed is displayed from the changed data table M2 as shown in FIG.
After that, the data that has not been changed is sequentially displayed.

In short, according to the second embodiment, by adopting the function of step St13 of FIG. 4, when confirming the changed set values, the changed set values are displayed in the order of the change, so that the test time and At the time of confirmation or the like, there is an advantage that the changed set value can be easily confirmed and the operation is easy, and it is suitable for re-reviewing the changed data.

Embodiment 3 FIG. According to the third embodiment, as shown in FIG. 7, when the process of displaying the set value starts, it is checked in step St21 whether the set value has been changed. Confirms whether or not the set value is changed within a fixed time in step St22.
In step 23, the setting items changed in the last step are displayed in the order of the basic setting from the last changed setting value. Display before the changed set value.

This will be described with reference to the example of FIG.
Assuming that the set values of the item numbers 5, 1, and 3 have been changed, in step St23, the display method is to first display the set value of the item number 3 in FIG. 15, and then to the item number 4 in FIG.
Displayed as 5, ..., 8. In the third embodiment, when the item number 8 is displayed, the next process is completed. In the third embodiment, after the item number 8 in FIG. 15 is displayed, the item number 1 and the item number 2 in FIG. Then, up to the last set value that has been changed, that is, up to 2 in terms of item number is displayed. That is, one set value corresponding to the set item is displayed. Further, if the set value has not been changed, or even if it has been changed, if the above-mentioned fixed time has elapsed, the set values are displayed in a basic order in step St24. Then, finally, at step St25, the set values of all the set items are displayed, and then the set value display is terminated.

The above-mentioned step St23 will be described in detail with reference to FIGS. 8 and 9. If there is no change in the same data table as in FIG. 15, the set values are sequentially changed from the top as shown in FIG. Display. Then, the operation until the write switch 25 in FIG. 11 is pressed is performed, and the set value of the voltage C is changed as shown in FIG. Similarly, the set value is changed in the order of the phase angle B and the current B, and the end switch 29 in FIG.
Pressing returns to the original data table order with the changed data except for the current B changed as shown in FIG. 9A. The data table to be displayed is displayed from the last changed current B as shown in FIG. 9B, followed by the current C and the voltage A, and returns to the beginning of the data table to display the current A. indicate.

In short, according to the third embodiment, by adopting the function of step St23 in FIG. 7, the set value changed last is displayed first, and then displayed in the basic order. Since the display starts from the value you want to check most after the setting value is changed, the set value is displayed once in the basic order, so the confirmation of the setting value that has not been changed is also displayed in the basic order. At the time of confirmation or the like, there is an advantage that the changed set value can be easily confirmed and the operation is easy. Therefore, it is suitable for changing only the setting value of one item.

[0025]

According to the method of the first aspect, the setting values of the changed setting items are displayed in the reverse order of the order in which they were changed, and then the setting values of the setting items that have not been changed are sequentially displayed. When confirming the set value, the display can be confirmed in the order of the new set value remaining in the memory, and the operation becomes very easy at the time of a test and at the time of confirmation. In addition, since the latest change data is displayed in descending order, data having a high possibility of being changed again can be quickly checked.

According to the method of the second aspect, the set values of the changed setting items are displayed in the order of change, and then the set values of the set items that have not been changed are sequentially displayed. Since the set values are displayed in the order of change, it is easy to confirm the changed set value and to perform an operation at the time of a test and at the time of confirmation. Also, since the display is in the order of change, it is suitable for reviewing the changed data again.

According to the method of the third aspect, among the set items whose set values have been changed, the set value of the set item that has been changed last is displayed, and then the set value is set in accordance with the preset basic order. Since the setting value of the setting item that was last changed is displayed sequentially, and the setting value is displayed once according to the setting item, confirmation of the setting value that has not been changed is also displayed in the basic order, at the time of testing and confirmation In such a case, the changed set value can be easily confirmed and the operation can be easily performed. Further, since the data changed last is always displayed at the top, it is suitable for a case where only the set value of one item is changed.

[Brief description of the drawings]

FIG. 1 is a flowchart showing a first embodiment of the present invention.

FIG. 2 is a diagram for explaining a change display of a set value according to the first embodiment.

FIG. 3 is a diagram (continuation of FIG. 2) for explaining a change display of a set value according to the first embodiment.

FIG. 4 is a flowchart showing a second embodiment of the present invention.

FIG. 5 is a diagram illustrating a change display of a set value according to the second embodiment.

FIG. 6 is a diagram (continuation of FIG. 5) for explaining a change display of a set value according to the second embodiment.

FIG. 7 is a flowchart illustrating a third embodiment of the present invention.

FIG. 8 is a diagram illustrating a change display of a set value according to the third embodiment.

FIG. 9 is a diagram (continued from FIG. 8) for explaining a setting value change display according to the third embodiment.

FIG. 10 is a configuration diagram showing an example of a digital protection relay as a conventional device.

FIG. 11 is a front view showing an operation panel of a conventional digital protection relay.

FIG. 12 is a flowchart of a conventional digital protection relay.

FIG. 13 is a diagram showing an LED display example corresponding to the flowchart of FIG.

FIG. 14 is a flowchart of a conventional set value display.

FIG. 15 is a diagram showing a display item data table of a set value.

[Explanation of symbols]

 M1, M2 data table

Continuation of front page (56) References JP-A-4-204216 (JP, A) JP-A-2-135502 (JP, A) JP-A-2-305678 (JP, A) JP-A-4-286669 (JP) JP-A-4-191755 (JP, A) Japanese Utility Model Application Laid-open No. Sho 62-33613 (JP, U) (58) Fields investigated (Int. Cl. ⁶ , DB name) H02H 3/00 G05B 15/02 G06F 3/14 G06F 9/00

Claims (3)

(57) [Claims] 1. A method for displaying a set value, wherein the set values are changed for each of a plurality of set items in a device and all set values are individually displayed on a display after the set values are completed. Among the changed setting items, the setting values of the changed setting items are displayed in the reverse order of the order in which they were changed, and then the setting values of the setting items that have not been changed are sequentially displayed. Setting value display method. 2. A method for displaying a set value, wherein the set value is changed for each of a plurality of set items in a device and all set values are individually displayed on a display after the set is completed. Display of the setting values of the equipment characterized by displaying the setting values of the changed setting items in the changed setting items in the order in which they were changed, and then sequentially displaying the setting values of the setting items that were not changed Method. 3. A method of displaying a set value, in which a set value is changed for each of a plurality of set items in a device and all set values are individually displayed on a display after the set is completed. Among the changed setting items, the setting value of the setting item that was changed last is displayed, and then the setting value of the setting item that was changed last is displayed sequentially according to the preset basic order. , Set the set value corresponding to the set item to 1
A method of displaying a set value of a device, wherein the setting value is displayed as specified.