JP6939298B2 - Monitoring device and monitoring system - Google Patents

Description

The present invention relates to a monitoring device and a monitoring system.

Conventionally, a transformer device including a cooling unit including an oil feeding pump that circulates insulating oil that exchanges heat with the transformer main body and a cooling fan that cools the circulating insulating oil has been known. As such a transformer device, for example, a mobile transformer device is known.

In general, insulating oil has a property that the insulating property decreases as the temperature rises. Therefore, a cooling control device that cools the temperature of the insulating oil to an appropriate temperature range has been proposed (see, for example, Patent Document 1).

JP-A-2009-290109

In the cooling control device disclosed in Patent Document 1, the oil supply pump and the cooling fan are turned on when the temperature of the insulating oil becomes equal to or higher than the appropriate temperature. On the other hand, when the temperature of the insulating oil becomes lower than the appropriate temperature, the oil supply pump and the cooling fan are turned off. As a result, the temperature of the insulating oil can be kept below a predetermined temperature.

By the way, motors (pump motors and fan motors) are used for the oil supply motor and the cooling fan. When a defect (bearing wear, etc.) occurs in the bearing portion of the motor, the mechanical resistance of the bearing portion increases. As a result, the current value of the motor also increases. Therefore, by directly detecting the overcurrent of the motor, a defect in the bearing portion of the motor is detected.

If an overcurrent of the motor is detected, a serious abnormality is expected in the bearing. Therefore, the power switch is shut off in order to suppress the burning of the motor. When the power switch is shut off, the transformer body cannot be cooled, which causes a power failure of the transformer body. Therefore, it is preferable to be able to detect an abnormality in the cooling unit at an early stage so that countermeasures can be taken without a power failure of the transformer main body.

An object of the present invention is to provide a monitoring device and a monitoring system capable of detecting an abnormality in a cooling unit at an early stage.

The present invention monitors and monitors a cooling unit including an oil feed pump that circulates insulating oil sealed in a transformer body using a pump motor and a cooling fan that cools the insulating oil that circulates using a fan motor. In the device, a pump motor current value acquisition unit that acquires the current value of the load current of the pump motor, a fan motor current value acquisition unit that acquires the current value of the load current of the fan motor, and an acquired current value. The present invention relates to a monitoring device including an abnormality detecting unit for detecting an abnormality of at least one of a pump motor and a fan motor by comparing whether or not each of them is equal to or higher than a predetermined current threshold value.

Further, the abnormality detection unit compares the load current of the pump motor with a predetermined current threshold value to determine the state of the pump motor, and the load current of the fan motor and a predetermined value. It is preferable to include a fan motor state determination unit for determining the state of the fan motor by comparing with the current threshold value of the above.

Further, when the pump motor state determination unit determines that the state of the pump motor is abnormal, the pump motor state determination unit outputs a signal indicating an abnormality of the pump motor, and the fan motor state determination unit determines the state of the fan motor. When it is determined that there is an abnormality, it is preferable to output a signal indicating the abnormality of the fan motor.

Further, the monitoring device may further include an outside air temperature acquisition unit that acquires the temperature of the outside air, and the abnormality detection unit may further include a threshold value correction unit that corrects a predetermined current threshold value based on the outside air temperature. preferable.

Further, the monitoring device further includes a pump motor temperature acquisition unit that acquires the temperature of the pump motor and a fan motor temperature acquisition unit that acquires the temperature of the fan motor, and the abnormality detection unit is of the acquired temperature. It is preferable to detect an abnormality of at least one of the pump motor and the fan motor by comparing whether or not each of them is equal to or higher than a predetermined temperature threshold.

Further, the abnormality detection unit is a pump motor state determination unit that determines the state of the pump motor by comparing the temperature of the pump motor with a predetermined temperature threshold value, and the temperature of the fan motor and a predetermined temperature. It is preferable to include a fan motor state determination unit for determining the state of the fan motor by comparing with the threshold value.

Further, the monitoring device may further include an outside air temperature acquisition unit that acquires the temperature of the outside air, and the abnormality detection unit may further include a threshold value correction unit that corrects a predetermined temperature threshold value based on the outside air temperature. preferable.

Further, the monitoring system includes the monitoring device according to any one of the above, and a monitoring control device for notifying an abnormality of the pump motor or the fan motor based on a signal indicating an abnormality output from the monitoring device. Is preferable.

According to the present invention, it is possible to provide a monitoring device and a monitoring system capable of detecting an abnormality in a cooling unit at an early stage.

It is a schematic diagram which shows the monitoring system which concerns on one Embodiment of this invention. It is a block diagram which shows the abnormality detection part of the monitoring device of the monitoring system of one embodiment. It is a flowchart which shows the operation of the monitoring system of one Embodiment.

Hereinafter, the monitoring device 30 and the monitoring system 2 according to the embodiment of the present invention will be described with reference to the drawings.
First, the configuration of the transformer device 1 to be monitored by the monitoring device 30 and the monitoring system 2 will be described.

The transformer device 1 is a device that transforms while circulating insulating oil. The transformer device 1 is, for example, a mobile transformer device. As shown in FIG. 1, the transformer device 1 includes a transformer main body 10 and a cooling unit 20.

The transformer main body 10 is a transformer filled with insulating oil. The transformer main body 10 includes a winding (not shown) and an iron core (not shown), and heat loss generated by a large current flowing through the winding and the iron core is transferred to the insulating oil.

The cooling unit 20 includes an oil pump 21 and a cooling fan 22. The cooling unit 20 circulates the insulating oil sealed in the transformer main body 10 and cools the insulating oil to prevent the temperature of the insulating oil from rising above a predetermined value.

The oil supply pump 21 is connected to the transformer main body 10 via the oil supply pipe 23. The oil supply pump 21 circulates the insulating oil sealed in the transformer main body 10. Specifically, the oil supply pump 21 circulates the insulating oil sealed in the transformer main body 10 by forming a flow of insulating oil inside the oil supply pipe 23. The oil supply pump 21 is provided with a pump motor 211.

The pump motor 211 provides the power to circulate the insulating oil. For example, the pump motor 211 rotates around a bearing (not shown) to transmit a rotational force to the insulating oil, thereby circulating the insulating oil between the oil supply pipe 23 and the inside of the transformer main body 10. ..

The cooling fan 22 cools the insulating oil. Specifically, the cooling fan 22 cools the insulating oil flowing through the oil supply pipe 23. The cooling fan 22 includes a fan main body 221 and a fan motor 222.

The fan body 221 is a so-called blower fan, and blows outside air by rotating around the axis. Specifically, the fan main body 221 cools the circulating insulating oil by blowing outside air to the oil supply pipe 23.

The fan motor 222 is a motor that rotates the fan body 221 around the axis. The fan motor 222 applies a rotational force to the fan body 221 by rotating the axis of the fan body 221 pivotally supported by a bearing (not shown).

According to the above transformer device 1, the heat loss generated by the transformation of the transformer main body 10 is transferred to the insulating oil. The insulating oil circulates between the transformer main body 10 and the oil supply pipe 23 by the operation of the pump motor 211 of the oil supply pump 21. The cooling fan 22 blows outside air to the oil supply pipe 23 by the rotation of the fan main body 221 by the operation of the fan motor 222. The insulating oil passing through the oil supply pipe 23 exchanges heat with the outside air blown by the fan motor 222, is cooled, and is returned to the inside of the transformer main body 10.

The monitoring system 2 and the monitoring device 30 according to the present embodiment are devices that monitor the cooling unit 20 of the transformer device 1. The monitoring system 2 includes a monitoring device 30 and a monitoring control device 40.

As shown in FIG. 1, the monitoring device 30 includes a pump motor current value acquisition unit 31, a pump motor temperature acquisition unit 32, a fan motor current value acquisition unit 33, a fan motor temperature acquisition unit 34, and an outside air temperature acquisition unit. 35 and an abnormality detection unit 36 are provided. The monitoring device 30 is installed in the vicinity of the transformer device 1.

The pump motor current value acquisition unit 31 acquires the current value of the load current of the pump motor 211 of the oil supply pump 21. The pump motor current value acquisition unit 31 acquires current values for the R phase, S phase, and T phase of the power supply of the pump motor 211, for example.

The pump motor temperature acquisition unit 32 acquires the temperature of the pump motor 211 of the oil supply pump 21. The pump motor temperature acquisition unit 32 acquires the surface temperature of the pump motor 211 by using a thermocouple cable, for example, for frictional heat generated due to wear of bearings or the like.

The fan motor current value acquisition unit 33 acquires the current value of the load current of the fan motor 222 of the cooling fan 22. The fan motor current value acquisition unit 33 acquires current values for the R phase, S phase, and T phase of the power supply of the fan motor 222, for example.

The fan motor temperature acquisition unit 34 acquires the temperature of the fan motor 222 of the cooling fan 22. The fan motor temperature acquisition unit 34 acquires the surface temperature of the fan motor 222 by using a thermocouple cable (not shown) for frictional heat generated due to wear of the bearing, for example.
The outside air temperature acquisition unit 35 acquires the temperature of the outside air.

The abnormality detection unit 36 obtains the current value of the load current of the pump motor 211 from the pump motor current value acquisition unit 31. Further, the abnormality detection unit 36 obtains the temperature of the pump motor 211 from the pump motor temperature acquisition unit 32. Further, the abnormality detection unit 36 obtains the current value of the load current of the fan motor 222 from the fan motor current value acquisition unit 33. Then, the abnormality detection unit 36 obtains the temperature of the fan motor 222 from the fan motor temperature acquisition unit 34. Further, the abnormality detection unit 36 obtains the temperature of the outside air from the outside air temperature acquisition unit 35.

The abnormality detection unit 36 corrects a threshold value (hereinafter, referred to as a current threshold value) of a current value for determining that the pump motor 211 is abnormal based on the temperature of the outside air. Further, the abnormality detection unit 36 corrects a threshold value (hereinafter, referred to as a temperature threshold value) of the temperature at which the pump motor 211 and the fan motor 222 are determined to be abnormal based on the temperature of the outside air. The abnormality detection unit 36 compares whether or not any of the acquired current values is higher than a predetermined current threshold value, and detects an abnormality of at least one of the pump motor 211 and the fan motor 222. Further, the abnormality detection unit 36 compares whether or not the acquired temperature (temperature of the pump motor 211 and the fan motor 222) is higher than a predetermined temperature threshold value, and compares at least one of the pump motor 211 and the fan motor 222. Detects anomalies. The abnormality detection unit 36 includes a threshold value storage unit 361, a threshold value correction unit 362, a pump motor state determination unit 363, and a fan motor state determination unit 364.

The threshold value storage unit 361 is an auxiliary storage device such as a so-called hard disk. The threshold value storage unit 361 stores the current threshold value of the current value related to the load current of the pump motor 211. Further, the threshold value storage unit 361 stores the temperature threshold value related to the temperature of the pump motor 211. Further, the threshold value storage unit 361 stores the current threshold value of the current value related to the load current of the fan motor 222. Then, the threshold value storage unit 361 stores the temperature threshold value related to the temperature of the fan motor 222. The threshold value storage unit 361 sets a current value indicating an abnormality with respect to the current value when each of the pump motor 211 and the fan motor 222 is operating normally at the reference outside air temperature, for example. Store as a value. Further, the threshold value storage unit 361 sets a temperature indicating an abnormality with respect to the temperature when each of the pump motor 211 and the fan motor 222 is operating normally at the reference outside air temperature, for example. Store as a value.

The threshold value correction unit 362 obtains the temperature of the outside air from the outside air temperature acquisition unit 35. Further, the threshold value correction unit 362 reads the current threshold value and the temperature threshold value of the pump motor 211 and the current threshold value and the temperature threshold value of the fan motor 222 from the threshold value storage unit 361. The threshold value correction unit 362 corrects the temperature threshold values of the pump motor 211 and the fan motor 222 based on the temperature of the outside air. The threshold value correction unit 362 corrects the temperature threshold value by, for example, adding the difference between the outside air temperature and the reference outside air temperature to the temperature threshold value. Further, the threshold value correction unit 362 corrects the current threshold value of the pump motor 211 based on the temperature of the outside air. The threshold value correction unit 362 corrects the current threshold value of the load current of the pump motor 211 based on, for example, the viscosity of the insulating oil that changes depending on the difference between the outside air temperature and the reference outside air temperature. That is, when the temperature of the outside air is high and the viscosity of the insulating oil decreases, the threshold value correction unit 362 lowers the current threshold value of the pump motor 211 based on the decrease in viscosity. On the other hand, the threshold value correction unit 362 raises the current threshold value of the pump motor 211 based on the increase in viscosity when the temperature of the outside air is low and the viscosity of the insulating oil increases.

The pump motor state determination unit 363 obtains the current value of the load current of the pump motor 211 from the pump motor current value acquisition unit 31. Further, the pump motor state determination unit 363 obtains the temperature of the pump motor 211 from the pump motor temperature acquisition unit 32. Then, the pump motor state determination unit 363 obtains the current threshold value and the temperature threshold value of the pump motor 211 from the threshold value correction unit 362. The pump motor state determination unit 363 compares the current value of the pump motor 211 with the current threshold value of the pump motor 211. As a result of comparison, the pump motor state determination unit 363 determines whether or not the current value of the load current of the pump motor 211 is equal to or greater than the current threshold value. The pump motor state determination unit 363 determines that the state of the pump motor 211 is abnormal when the current value of the load current of the pump motor 211 is equal to or greater than the current threshold value. When the pump motor state determination unit 363 determines that the pump motor 211 has an abnormality, the pump motor state determination unit 363 outputs a signal indicating an abnormality of the pump motor 211.

Further, the pump motor state determination unit 363 compares the temperature of the pump motor 211 with the temperature threshold value of the pump motor 211. As a result of comparison, the pump motor state determination unit 363 determines whether or not the temperature of the pump motor 211 is equal to or higher than the temperature threshold value. The pump motor state determination unit 363 determines that the state of the pump motor 211 is abnormal when the temperature of the pump motor 211 is equal to or higher than the temperature threshold value. When the pump motor state determination unit 363 determines that the pump motor 211 has an abnormality, the pump motor state determination unit 363 outputs a signal indicating an abnormality of the pump motor 211.

The fan motor state determination unit 364 obtains the current value of the load current of the fan motor 222 from the fan motor current value acquisition unit 33. Further, the fan motor state determination unit 364 obtains the temperature of the fan motor 222 from the fan motor temperature acquisition unit 34. Then, the fan motor state determination unit 364 obtains the current threshold value and the temperature threshold value of the fan motor 222 from the threshold value correction unit 362. The fan motor state determination unit 364 compares the current value of the fan motor 222 with the current threshold value of the fan motor 222. As a result of comparison, the fan motor state determination unit 364 determines whether or not the current value of the fan motor 222 is equal to or greater than the current threshold value of the fan motor 222. The fan motor state determination unit 364 determines that the fan motor 222 has an abnormality when the current value of the fan motor 222 is equal to or greater than the current threshold value of the fan motor 222. When the fan motor state determination unit 364 determines that the fan motor 222 has an abnormality, the fan motor state determination unit 364 outputs a signal indicating an abnormality of the fan motor 222.

Further, the fan motor state determination unit 364 compares the temperature of the fan motor 222 with the temperature threshold value of the fan motor 222. As a result of comparison, the fan motor state determination unit 364 determines whether or not the temperature of the fan motor 222 is equal to or higher than the temperature threshold value of the fan motor 222. The fan motor state determination unit 364 determines that the fan motor 222 has an abnormality when the temperature of the fan motor 222 is equal to or higher than the temperature threshold value. When the fan motor state determination unit 364 determines that the fan motor 222 has an abnormality, the fan motor state determination unit 364 outputs a signal indicating an abnormality of the fan motor 222.

The monitoring control device 40 is installed, for example, far from the transformer device 1 and the monitoring system 2. Specifically, the monitoring control device 40 is installed in a management center or the like different from the transformer device 1. The monitoring control device 40 notifies at least one of the abnormalities of the pump motor 211 and the fan motor 222 based on the signal transmitted from the abnormality detecting unit 36. That is, the monitoring control device 40 obtains at least one of the signal indicating the abnormality of the pump motor 211 and the signal indicating the abnormality of the fan motor 222 transmitted from the abnormality detecting unit 36, and at least one of the pump motor 211 and the fan motor 222. Notify one of the abnormalities. Specifically, the monitoring control device 40 obtains a signal indicating an abnormality from at least one of the pump motor state determination unit 363 and the fan motor state determination unit 364, and notifies the abnormality of at least one of the pump motor 211 and the fan motor 222. do.

Next, the operations of the monitoring device 30 and the monitoring system 2 will be described with reference to the flowchart of FIG.

First, in step S1, the threshold value correction unit 362 includes the current threshold value and the temperature threshold value of the pump motor 211 and the current threshold value and the temperature threshold value of the fan motor 222 from the threshold value storage unit 361. Is read. Further, the threshold value correction unit 362 obtains the temperature of the outside air from the outside air temperature acquisition unit 35.

Next, in step S2, the threshold value correction unit 362 corrects the current threshold value and the temperature threshold value of the pump motor 211 based on the temperature of the outside air. Further, the threshold value correction unit 362 corrects the temperature threshold value of the fan motor 222 based on the temperature of the outside air. The threshold value correction unit 362 sends the corrected current threshold value and temperature threshold value of the pump motor 211 to the pump motor state determination unit 363. Further, the threshold value correction unit 362 sends the current threshold value of the fan motor 222 read from the threshold value storage unit 361 and the corrected temperature threshold value of the fan motor 222 to the fan motor state determination unit 364.

Next, in step S3, the fan motor state determination unit 364 obtains the current value of the fan motor 222 from the fan motor current value acquisition unit 33. Further, in step S4, the fan motor state determination unit 364 obtains the temperature of the fan motor 222 from the fan motor temperature acquisition unit 34.

Next, in step S5, the fan motor state determination unit 364 compares the current value of the load current of the fan motor 222 with the current threshold value. Further, the fan motor state determination unit 364 compares the temperature of the fan motor 222 with the temperature threshold value.

If the fan motor state determination unit 364 detects an abnormality in the fan motor 222 in step S6, the process proceeds to step S11. On the other hand, if the fan motor state determination unit 364 does not detect an abnormality in the fan motor 222, the process proceeds to step S7.

In step S7, the pump motor state determination unit 363 obtains the current value of the pump motor 211 from the pump motor current value acquisition unit 31. Further, the pump motor state determination unit 363 obtains the corrected current threshold value of the pump motor 211 from the threshold value correction unit 362.

Next, in step S8, the pump motor state determination unit 363 obtains the temperature of the pump motor 211 from the pump motor temperature acquisition unit 32. Further, the pump motor state determination unit 363 obtains the corrected temperature threshold value of the pump motor 211 from the threshold value correction unit 362.

Next, in step S9, the pump motor state determination unit 363 compares the current value of the load current of the pump motor 211 with the current threshold value. Further, the pump motor state determination unit 363 compares the temperature of the pump motor 211 with the temperature threshold value.

If the pump motor state determination unit 363 detects an abnormality in the pump motor 211 in step S10, the process proceeds to step S11. On the other hand, if the pump motor state determination unit 363 does not detect an abnormality in the pump motor 211, the process returns to step S1.

In step S11, the monitoring control device 40 obtains a signal indicating an abnormality from the fan motor state determination unit 364 and the pump motor state determination unit 363. The monitoring control device 40 notifies the abnormality based on the signal indicating the abnormality obtained from the fan motor state determination unit 364 and the pump motor state determination unit 363. The monitoring control device 40 notifies the abnormality of the fan motor 222 based on the signal indicating the abnormality obtained from the fan motor state determination unit 364, for example. Further, the monitoring control device 40 notifies the abnormality of the pump motor 211 based on, for example, a signal indicating an abnormality obtained from the pump motor state determination unit 363.

According to the above-mentioned monitoring device 30 and monitoring control device 40, the following effects are obtained.
(1) The monitoring device 30 acquires the current value of the load current of the pump motor current value acquisition unit 31 for acquiring the load current of the pump motor 211 of the oil supply pump 21 and the load current of the fan motor 222 of the cooling fan 22. Abnormality detection for detecting at least one abnormality of the pump motor 211 and the fan motor 222 by comparing whether or not each of the acquired current values is higher than a predetermined current threshold value with the fan motor current value acquisition unit 33. A part 36 and the like are included in the configuration. As a result, the abnormality of the pump motor 211 and the fan motor 222 can be detected at an early stage before the overcurrent of the pump motor 211 and the fan motor 222 which are the cooling units 20 is detected. Therefore, for example, when the fins of the fan body 221 are clogged with dust, abnormalities other than bearing abnormalities can be detected at an early stage, and failures of the cooling unit 20 can be suppressed in advance. By suppressing the failure of the cooling unit 20 in advance, it is possible to prevent the transformer device 1 from being stopped unexpectedly. Further, since the abnormality of the cooling unit 20 is found in advance, it is possible to plan in advance the arrangement of replacement parts and the timing of replacement, so that the influence of a sudden power failure can be reduced.

(2) Further, the abnormality detection unit 36 compares the load current of the pump motor 211 with a predetermined current threshold value to determine the state of the pump motor 211, and the pump motor state determination unit 363 and the fan motor 222. The configuration includes a fan motor state determination unit 364 for determining the state of the fan motor 222 by comparing the load current with a predetermined current threshold value. As a result, the state of the fan motor 222 and the state of the pump motor 211 can be determined separately, so it is possible to separately output which of the pump motor 211 and the fan motor 222 has an abnormality. Therefore, it is possible to easily determine which of the pump motor 211 and the fan motor 222 should be dealt with.

(3) When the pump motor state determination unit 363 determines that the state of the pump motor 211 is abnormal, a signal indicating an abnormality of the pump motor 211 is output, and the fan motor state determination unit 364 outputs the state of the fan motor 222. When it is determined that there is an abnormality, a signal indicating an abnormality of the fan motor 222 is output. As a result, it is possible to output a signal indicating an abnormality of the pump motor 211 and the fan motor 222 to the outside. Therefore, it can be immediately determined that an abnormality has occurred in the pump motor 211 and the fan motor 222.

(4) The monitoring device 30 is further configured to include an outside air temperature acquisition unit 35 that acquires the temperature of the outside air. Further, the abnormality detection unit 36 is further configured to include a threshold value correction unit 362 that corrects a predetermined current threshold value based on the outside air temperature. As a result, the current threshold value of the pump motor 211 can be corrected by the temperature of the outside air, so that the degree of abnormality detection can be changed according to the viscosity of the insulating oil that changes depending on the temperature, which is highly flexible. Equipment can be provided.

(5) The monitoring device 30 is further composed of a pump motor temperature acquisition unit 32 for acquiring the temperature of the pump motor 211 and a fan motor temperature acquisition unit 34 for acquiring the temperature of the fan motor 222. Further, the abnormality detection unit 36 compares whether or not each of the acquired temperatures is equal to or higher than a predetermined temperature threshold value, and detects an abnormality of at least one of the pump motor 211 and the fan motor 222. As a result, the abnormality of the pump motor 211 and the fan motor 222 can be detected further in consideration of the temperature, so that the abnormality of the pump motor 211 and the fan motor 222 can be detected more reliably.

(6) The abnormality detection unit 36 compares the temperature of the pump motor 211 with a predetermined temperature threshold value to determine the state of the pump motor 211, the pump motor state determination unit 363, and the temperature of the fan motor 222 and a predetermined temperature. A fan motor state determination unit 364 for determining the state of the fan motor 222 by comparing with the temperature threshold is included. As a result, the state of the fan motor 222 and the state of the pump motor 211 can be determined separately, so it is possible to separately output which of the pump motor 211 and the fan motor 222 has an abnormality. Therefore, it is possible to easily determine which of the pump motor 211 and the fan motor 222 should be dealt with.
(7) The monitoring device 30 further includes an outside air temperature acquisition unit 35 that acquires the temperature of the outside air, and the abnormality detection unit 36 further includes a threshold value correction that corrects a predetermined temperature threshold value based on the outside air temperature. It was configured to include part 362. Thereby, the temperature threshold values of the pump motor 211 and the fan motor 222 can be corrected based on the temperature of the outside air. That is, it is possible to detect an abnormality in the pump motor 211 and the fan motor 222 based on how much the temperature rises with respect to the temperature of the pump motor 211 and the fan motor 222 in the stopped state which changes depending on the season and the weather. .. Therefore, it is possible to provide a highly flexible device.
(8) The monitoring system 2 includes the monitoring device 30 and a monitoring control device 40 for notifying an abnormality of the pump motor 211 or the fan motor 222 based on a signal indicating an abnormality output from the monitoring device 30. .. As a result, the abnormality of the cooling unit 20 can be monitored externally, so that the monitoring of the cooling unit 20 can be facilitated.

Although the preferred embodiments of the monitoring device and the monitoring system of the present invention have been described above, the present invention is not limited to the above-described embodiments and can be appropriately modified.

For example, in the above embodiment, the monitoring device 30 uses the current value and temperature of the load current of the pump motor 211 and the current value and temperature of the load current of the fan motor 222 to detect an abnormality in the pump motor 211 and the fan motor 222. I tried to detect it, but it is not limited to this. For example, the monitoring device 30 may detect an abnormality in the pump motor 211 and the fan motor 222 by using only the current value of the load current of the pump motor 211 and the current value of the load current of the fan motor 222.

Further, in the above embodiment, the mobile transformer is illustrated as the transformer device 1, but the present invention is not limited thereto. That is, if the transformer device 1 is provided with a cooling unit 20 such as an indoor substation, the monitoring device 30 and the monitoring system 2 can be used.

Further, in the above embodiment, the pump motor state determination unit 363 and the fan motor state determination unit 364 output a signal indicating an abnormality when an abnormality is detected in the current value and temperature of the load current. Not limited to this. For example, the pump motor state determination unit 363 and the fan motor state determination unit 364 may output a signal indicating which of the current value of the load current and the temperature is abnormal.

Further, in the above embodiment, the pump motor state determination unit 363 and the fan motor state determination unit 364 may include a signal for identifying the cooling unit 20 in the signal indicating the abnormality. As a result, the monitoring control device 40 can also notify which pump motor 211 and fan motor 222 an abnormality has been detected.

2 Monitoring system 10 Transformer body 20 Cooling unit 21 Oil supply pump 22 Cooling fan 30 Monitoring device 31 Pump motor current value acquisition unit 32 Pump motor temperature acquisition unit 33 Fan motor current value acquisition unit 34 Fan motor temperature acquisition unit 35 Outside air temperature acquisition Unit 36 Abnormality detection unit 40 Monitoring and control device 211 Pump motor 222 Fan motor 362 Threshold correction unit 363 Pump motor status determination unit 364 Fan motor status determination unit

Claims (7)

A monitoring device that monitors a cooling unit that includes an oil feed pump that circulates insulating oil sealed in the transformer body using a pump motor and a cooling fan that cools the insulating oil that circulates using a fan motor. ,
The outside air temperature acquisition unit that acquires the outside air temperature,
A pump motor current value acquisition unit that acquires the current value of the load current of the pump motor, and a pump motor current value acquisition unit.
A fan motor current value acquisition unit that acquires the current value of the load current of the fan motor,
Each of the obtained current value is compared whether more than a predetermined current threshold, a failure detection unit for detecting at least one abnormality of the pump motor and the fan motor, the obtained outside air temperature and criteria An abnormality detection unit having a threshold value correction unit that corrects the current threshold value of the load current of the pump motor based on the viscosity of the insulating oil sealed in the transformer main body, which changes depending on the difference from the outside air temperature.
A monitoring device equipped with. The abnormality detection unit
A pump motor state determination unit that determines the state of the pump motor by comparing the load current of the pump motor with a predetermined current threshold value, and
A fan motor state determination unit that determines the state of the fan motor by comparing the load current of the fan motor with a predetermined current threshold value, and
The monitoring device according to claim 1. When the pump motor state determination unit determines that the state of the pump motor is abnormal, it outputs a signal indicating an abnormality of the pump motor.
The monitoring device according to claim 2, wherein the fan motor state determination unit outputs a signal indicating an abnormality of the fan motor when the state of the fan motor is determined to have an abnormality. A pump motor temperature acquisition unit that acquires the temperature of the pump motor,
A fan motor temperature acquisition unit that acquires the temperature of the fan motor,
Further prepare
The abnormality detection unit according to any one of claims 1 to 3 for detecting an abnormality of at least one of a pump motor and a fan motor by comparing whether or not each of the acquired temperatures is equal to or higher than a predetermined temperature threshold value. Monitoring device. The abnormality detection unit
A pump motor state determination unit that determines the state of the pump motor by comparing the temperature of the pump motor with a predetermined temperature threshold value, and
A fan motor state determination unit that determines the state of the fan motor by comparing the temperature of the fan motor with a predetermined temperature threshold value, and
The monitoring device according to claim 4. Further equipped with an outside air temperature acquisition unit that acquires the temperature of the outside air,
The monitoring device according to claim 5 , wherein the abnormality detection unit further includes a threshold value correction unit that corrects a predetermined temperature threshold value based on the outside air temperature. A monitoring system including the monitoring device according to any one of claims 1 to 6 , and a monitoring control device that notifies an abnormality of the pump motor or the fan motor based on a signal indicating an abnormality output from the monitoring device. ..

Images