KR100974860B1 - Apparatus and method for measuring insulating oil of transformer - Google Patents

Abstract

PURPOSE: An automatic test apparatus of insulating oil and a method for controlling the same are provided to improve purification and filtration quality. CONSTITUTION: An automatic test apparatus of insulating oil comprises: a sample filling device(1000) which receives certain amount of insulating oil to a sample tank and controls predetermined temperature and pressure; an insulating oil test device(600) having a measuring pipe, a filling and discharging device, pressure control device, and device for measuring insulation characteristic; a temperature control device(800) which controls and maintains predetermined temperature; and a controller(700) which controls the sample filling deice, insulating oil test device, and temperature control device and transfers test result information to the outside.

Description

Apparatus and method for measuring insulating oil of transformer

The present invention relates to an automatic device for inspecting insulation deterioration of electric insulating oil in a live state, and a control method thereof, and more particularly, to the aging inside a transformer during the process of performing fine filtration and purification of the insulating oil of an old transformer currently in use. This is a device that can compare and inspect the electrical and physical insulation strength of the insulating oil and the insulating oil through filtration and refining. Samples lubricated through the upper valve and the automatic lubrication device are taken, and the insulation strength such as color change, viscosity, density, dielectric constant, moisture content, breakdown voltage, etc. of the insulating oil is measured through the insulating oil inspection device. Automatic properties of insulating oil to automatically inspect the degree of filtration and purification by relative comparison An inspection apparatus and a control method thereof.

As electrical facilities become more advanced and larger today, the reliability of inspection and maintenance is becoming more and more important in the aftercare aspects of electrical facilities. The inspection and maintenance of electrical equipment is the main reason for maintaining the adequacy of pursuit of periodicity and precision, and it discovers the causes of potential electrical disasters and removes the factors appropriately to prevent electrical contraction, fire and equipment accidents. It is one of the systems. Therefore, the purpose of the inspection and maintenance of the electrical equipment is to maintain the function and performance properly and to prevent accidents.

In particular, the transformer plays an important role in the stable power supply in addition to the basic function of converting voltage in the power system. Therefore, the reliability of the transformer is very important to fully function without accident. However, a transformer, a stationary device, is a simple and sturdy electrical device that can be neglected until it breaks down due to a low accident rate. It can be said.

Aging inflow transformer accidents cause aging of the insulating oil and overheating of the insulating oil due to electrical accidents. This phenomenon is very likely to lead to the fire and explosion of the transformer, so the ripple effect is very large.

According to the current quality control standards of electric insulating oils, it is determined whether to replace or filter the insulating oils by analyzing the moisture (less than 30ppm), the dielectric breakdown voltage (more than 30kv), the acid value (less than 0.2mgKOH / g) and the gas in oil. Therefore, the insulation strength of the electric insulation oil against old transformers is reinforced.

In order to reinforce the insulating strength of the electric insulating oil to the old transformers installed and used as described above, when the replacement and filtration of the insulating oil is to be carried out, a cease-fire replacement work for the customer supplied with the electricity is carried out. It is a method that replaces the oblique line that causes inconvenience and the method of removing and re-installing the transformer according to the service life, replacing the insulating oil by the transformer repair company, and then transporting the repaired transformer back to the site to reinstall and operate the procedure. It is complicated and there is a problem that the construction period and costs are increased. In addition, the method of using insulating oil replacement and filtration in the active state is used.

However, as the oil filter device used in the current state of the live state is limited only to the sludge and water filtration functions, it is possible to temporarily increase the dielectric breakdown voltage. Since one cannot be filtered, after a certain period of use, the price, color and quality of the insulating oil cannot be improved to maintain the characteristics of the insulating oil close to the new oil, and in real-time to maintain the quality of the insulating oil. Since there is no device to measure the characteristics of insulating oil, the quality of the filtered insulating oil cannot be quantified constantly. In addition, when the computational value is determined to be 0.4 (mgKOH / g) or more, the replacement of the insulating oil with a new oil is incurred, and the disposal of the waste insulating oil generated at this time is expensive.

On the other hand, Patent Application No. 10-2005-0087503 ("Automatically supplying transformer insulating oil and method in the live state") and Patent Application 10-2005-0081217 have been proposed as a device for replacing the insulating oil of the transformer in the live state. .

1 is a configuration diagram of a conventional automatic transformer insulating oil supply device in a live state, as shown therein, the charging unit 11 is electrically installed therein, the charging unit 11 is sufficiently locked by the insulating oil 12 In the transformer 10 for supplying power in a state, one end is connected to the drain port 13 formed at the lower end of the main body of the transformer 10 and the other end is on the drain line 30 connected to the first pump 41. Insulating oil detector 20 installed in the vertical direction and sensing the level of the level of the insulating oil 12 filled in the transformer 10 main body, and the insulating oil as the first pump 41 is operated by the insulating oil detector 20 When the filter 12 is pumped into the inside, the filter 40 filters the oil and temporarily stores the filtered insulating oil 12, and one end is connected to the second pump 42 connected to the filter 40, and the other end thereof is the inlet 14. Filtered insulating oil 12 when the second pump 42 is operated in the Supply line 31 for supplying a predetermined amount to the transformer 10, and the control box 50 electrically connected to the insulating oil detector 20 and the first and second pumps 41 and 42 and controlling the operation thereof. It is a transformer insulating oil automatic supply device in a live state characterized in that consisting of.

By the way, the conventional automatic transformer oil supply device in the live state, as the insulating oil detector 20 detects the level of the insulating oil 12 inside the transformer to automatically supply or replace the insulating oil in the filter 40, simply transformer It only included a filtration function with replenishment and supply of internal insulating oil.

Therefore, in the case of using the automatic transformer oil supply device in the conventional live state as described above, when the insulation oil used in the conventional transformer is to be filtered seriously, the conventional technology is a simple filter and there is no device for inspecting the insulation oil insulation degree. In addition, since the characteristics of insulating materials such as color change, viscosity change, density change, dielectric constant, moisture content, dielectric breakdown voltage, etc. of the insulating oil produced by the deterioration of the insulating oil cannot be examined in real time, constant filtration of the filter Since the quality and the quality of the objective insulating oil cannot be maintained, the phenomenon in which deterioration is promoted again after filtration of old insulating oil is repeated.

The present invention, as described above, when performing the filtration and purification to reinforce the insulation strength of the old electric insulating oil of the inlet transformer currently installed and operating in the active state, the insulation strength of the existing aging insulating oil and the insulating oil through filtration and purification Automatic inspection of the characteristics of insulating oil and its control method to improve the quality of filtration and refining by automatically determining It is to provide.

The present invention is to automatically inspect the degree of insulation deterioration in the live state of the electric transformer oil of the inlet transformer, which is directly related to the life of the transformer, the color change of the filtered and purified insulating oil when filtering and refining the old insulating oil, It is to maintain the characteristics close to new oil (more than 80%) by measuring and judging the dielectric strength such as viscosity change, density change, dielectric constant change, moisture content, insulation breakdown voltage in real time.

The present invention is automatic insulation degradation inspection method for achieving the above problems,

A sample filling device for receiving and storing a sample in the sample tank, an insulating oil inspection device for filling a sample in the sample tank into a predetermined amount measuring tube and using the measuring means to inspect the characteristics of the sample in the measuring tube; Automatic inspection of insulating oil, including a temperature control device for adjusting a sample temperature, a sample oil supply device for circulating a sample of the insulating oil inspection device and a sample filling device, and a control device for controlling sample supply, filling, and inspection by automatic control In the control method of the device,

A sample supply process for receiving a sample from an automatic oiling device or an automatic oiling device into a sample tank of a sample filling device and maintaining the sample at a constant temperature;

When the sample is filled in the sample tank during the sample supply process, the sample is filled into each measuring tube of the insulating oil inspection device, the filling valve of the sample filling device and the filling port of each measuring tube are opened, and the drain pump of the sample oil feeding device is driven. And a sample filling process of filling a predetermined amount of sample in each measuring tube by vacuum suction method by opening a vacuum valve of each measuring tube;

A measuring temperature adjusting process of maintaining a measuring temperature by controlling a temperature adjusting device such that a temperature inside a housing surrounding the insulating oil inspection device becomes a preset temperature;

A measurement process of controlling the sensors through the measurement sensor unit of the insulation oil inspection apparatus to perform the insulation oil characteristic inspection, displaying the inspection information and outputting the measurement information if the measurement temperature adjustment is maintained in the measurement temperature adjustment process;

After performing the measurement process for a predetermined time, when each measurement is completed, by opening the discharge valve of each measuring tube and driving the draining pump to perform a sample draining process for draining the sample in each measuring tube into the oiling tank do.

The present invention, after the completion of the test receiving the sample to discharge the insulating oil in the measuring tube and at the same time performing the sample tank sample draining process for discharging the sample in the sample tank of the sample filling device automatic insulating oil properties inspection Control method of the device.

The measurement process of the present invention

Depending on the measurement item, a plurality of single inspection devices can be driven in parallel to measure simultaneously or sequential measurement, but the measurement time is controlled to perform a stable measurement by maintaining the measurement time for a predetermined time set according to the measurement item. It is done.

The control method of the insulating oil property automatic inspection device,

Open the sampling valve of the sample filling device and the fifth filling port of the sample sampling device, open the fifth vacuum valve of the sample sampling device, and drive the draining pump of the sample drainage device to vacuum the sample by a vacuum suction method. Characterized in that it further comprises a sample collection step of filling the sample container.

The control method of the insulating oil property automatic inspection device,

If you are testing the properties of different insulating oils,

The method may further include a cleaning process of cleaning the measuring tube and the filling line of the sample by performing a process of filling and discharging the sample supplied to the sample tank to the measuring tube of the insulating oil inspection device at least once or at least once. .

The present invention includes an automatic oil drainage device for draining old electrical insulating oil through a lower valve of a transformer, and an automatic oiling device for filling filtered upper insulating oil through an upper valve of a transformer. In the automatic insulation deterioration inspection system of Korea, it is possible to improve the quality of filtration and purification by automatically discriminating the insulation strength of existing aging insulation oil and insulation oil through filtration and purification when performing filtration and purification of old insulation oil of a transformer in operation. Accurately determine the completion time of filtration and refining of aging insulating oil to enable automatic filtration and refining of aging insulating oil in the live state, and change of color, viscosity, density, change of dielectric constant, Measure and judge the dielectric strength of moisture content, dielectric breakdown voltage, etc. in real time Insulating properties to maintain the facing (80%) characteristic is an automatic testing device.

The automatic insulating oil property inspection apparatus according to the present invention,

A sample filling device receiving a predetermined amount of the insulating oil to be examined for the characteristics of the insulating oil and adjusting the temperature and pressure of the insulating oil to a preset temperature and pressure by means of a temperature adjusting means and a pressure adjusting means installed in the sample tank;

A measuring tube receiving a sample from the sample filling device; Filling and discharging means for filling a sample into a measuring tube and discharging insulating oil after inspection; Pressure adjusting means for adjusting a pressure inside the measuring tube; Measuring means for detecting the insulating properties of the insulating oil inside the measuring tube; a single inspection device is made, the measuring means of the single inspection device, the insulating oil chromaticity measuring sensor, insulating oil fluid characteristics measuring sensor, insulating oil moisture measuring sensor and insulating oil dielectric breakdown voltage tester Insulating oil inspection apparatus which is installed in parallel a plurality of single inspection device each;

An inspection device temperature adjusting device for installing the plurality of single inspection devices inside the insulating housing, and adjusting and maintaining the internal temperature of the housing at a preset temperature;

A sample draining device for discharging insulating oil from the sample tank of the sample filling device and each of the measuring tubes of the plurality of single test devices to the test sample draining tank;

The sample filling device, the insulating oil test device, the temperature control device, and the sample oil supply device are controlled to receive a sample of the insulating oil to be tested to the sample tank, and the insulating oil of the sample tank is supplied to the insulating oil test device. It is configured to control the automatic discharge and to display the characteristic information of the insulating oil measured from each measuring means of the insulating oil inspection device through the display device and to include a control device configured to transmit the inspection result information to the external system. do.

In addition, the present invention is the filling and discharging means for injecting and discharging a predetermined amount of the sample from the sample collection device to the single inspection device,

A filling valve in a sample filling device for supplying insulating oil from the sample tank to a measuring tube; A filling port connected to the filling valve for filling insulating oil under the measuring tube; A vacuum valve connected to an upper end of the measuring tube and a discharge valve connected to the measuring tube to discharge insulating oil; The vacuum valve and the discharge valve is connected to the common in the pumping device in the sample oil supply device which is pumping action is characterized in that the measuring sample is filled in the measuring tube by the vacuum suction method.

In another aspect, the present invention is further provided with an oil drain valve for draining the insulating oil in the sample tank of the sample filling device, it is configured to enable automatic discharge of the insulating oil in the sample tank by connecting the drain valve and the oil drain pump of the sample oil drain device. It features.

In another aspect, the present invention, the sampling valve for collecting the insulating oil from the sample tank of the sample filling device; A sample collector which receives a sample supplied from the sampling valve through a filling port, and a sample container which is detachably attached to the sample collector and stores a predetermined amount of the sample supplied into the sample collector; It is characterized in that it further comprises a sample sample collection device comprising a vacuum valve connected to the upper end of the sampler connected to the drain pump of the sample oil distribution device and a pressure measuring means for measuring the pressure of the sample collector. .

In addition, the present invention is a sample filling device,

It is connected to the automatic draining device for draining the internal insulating oil of the transformer is configured to further include a sample pump for receiving a certain amount of sample from the automatic draining device through the first sample valve to fill the sample tank. This is to check the characteristics by automatically draining a certain amount of sample from the active transformer.

In addition, the sample filling device,

A first sample filling device which is filled with a first sample for inspecting characteristics by receiving the insulating oil in the transformer discharged from the transformer,

It is characterized in that the second sample filling device is provided as a second sample for supplying new oil or filtered and purified insulating oil lubricated as a transformer to check the characteristics.

Automatic deterioration inspection device and method for electric insulation oil in the live state of the present invention, when performing the filtration and purification of the old insulation oil of the transformer in operation, the existing insulation oil and the insulation strength of the insulation oil through the filtration and purification automatically Improve the quality of filtration and refining by precisely determining the completion time of filtration and refining of aging insulating oil, enabling automatic filtration and refining of aging insulating oil in a live state, and changing the color and viscosity of the filtered and refining insulating oil Change in density, change in dielectric constant, change in dielectric constant, moisture content, dielectric breakdown voltage, etc. in real time to measure and judge the characteristics close to the new oil (more than 80%) to maintain the characteristics of the old aging and oil There is an advantage to quantify the dielectric strength and quality.

1 is a block diagram of a transformer insulating oil automatic supply device in a conventional live state.
2 is a block diagram of an automatic insulation deterioration inspection apparatus for electric insulating oil in the live state according to the present invention.
Figure 3 is a schematic view of the configuration of the automatic insulation deterioration inspection apparatus for electric insulating oil in the live state according to the present invention.
4 is a system diagram of an automatic insulation deterioration inspection apparatus for electric insulating oil in the live state according to the present invention.
5 is a flowchart illustrating a method for automatically inspecting insulation deterioration for electric insulation oil in the live state according to the present invention (old insulation oil).
Figure 6 is a flow chart of the automatic insulation deterioration inspection apparatus method for electric insulating oil in the live state according to the present invention (filtered and purified insulating oil).

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figures 2 to 4,

Sample filling device 1000 for receiving a predetermined amount of the insulating oil to test the characteristics of the insulating oil in the sample tank, and adjusts the temperature and pressure of the insulating oil to a predetermined temperature and pressure by the temperature adjusting means and the pressure adjusting means installed in the sample tank. Wow;

A measuring tube receiving a sample from the sample filling apparatus 1000; Filling and discharging means for filling a sample into a measuring tube and discharging insulating oil after inspection; Pressure adjusting means for adjusting a pressure inside the measuring tube; Measuring means for detecting the insulating properties of the insulating oil inside the measuring tube; a single inspection device (600a-600d) is made, the insulating oil chromaticity measuring sensor for measuring the color change of the insulating oil by the measuring means of the single inspection device (600a-600d) , A plurality of single inspection devices (600a-600b) each equipped with an insulating oil fluid characteristic sensor for measuring the viscosity, density and dielectric constant of the insulating oil, an insulating oil moisture measuring sensor for measuring the moisture contained in the insulating oil, and an insulating oil dielectric breakdown voltage tester Insulating oil inspection apparatus 600 is installed;

An inspection apparatus temperature controller 800 for installing the plurality of single inspection apparatuses inside the insulation housing 801 and for maintaining and maintaining the temperature inside the housing 801 at a preset temperature;

A sample tanker 910 for discharging insulating oil from the sample tanks of the sample filling device 1000 and the respective measuring tubes of the plurality of single testers to the test sample draining tank 913;

The sample filling device 1000, the insulating oil inspection device 600, the temperature control device 800, the sample drainage device 910 is controlled by receiving a sample of the insulating oil to be tested to the sample tank, Insulating oil is supplied to the insulating oil inspection device, controlled to be automatically discharged after the inspection is completed, and the characteristic information of the insulating oil measured from each measuring means of the insulating oil inspection device is displayed on the display device and the inspection result information is transmitted to the external system. Characterized in that configured to include a control device 700 made to be.

The sample filling apparatus 1000 may include only one sample filling apparatus or may include two sample filling apparatuses. When only one sample filling device is provided, a predetermined amount of insulating oil to be inspected may be stored in the sample tank. In order to be directly connected to a live transformer, to automatically receive the internal insulating oil of the transformer as a sample, the automatic draining device 200 Will be needed.

Automatic drainage device 200 is a device for draining the insulating oil in the transformer through the lower valve 110 of the transformer 100, through the temperature control device while doubling the internal insulation of the transformer 100 through the drainage pump The temperature of the insulating oil is adjusted to a preset temperature so as to supply the insulating oil to the sample filling apparatus 1000.

In addition, the sample filling apparatus 1000 may be provided with two sample filling apparatuses, which in the transformer filtration and refining system that drains the internal insulating oil of the transformer 100 to filter and purify and refill it with a transformer, the filtration of the insulating oil And a system for automatically determining the end point of filtration and purification by examining the degree of purification. When two sample filling devices are installed, one is an oil filling sample filling device 400 connected to the automatic oiling device 200, and the other is an automatic oiling device 300 to receive the insulating oil lubricated in the transformer 100 as a sample. Oil filling sample filling device 500 is connected to).

The oil sample filling apparatus 400 and the oil filling sample apparatus 500 have the same configuration except that the sample supplying apparatus is the same, and only one sample is inspected during the insulating oil inspection using the insulating oil inspecting apparatus 600. However, the reason for the separation into two is to make sure that the sample is not mixed in order to inspect the sample to be drained and the sample to be fed, respectively, and there is an inconvenience of having to wash all of the samples after the test. In order to reduce such inconvenience, the sample filling device is configured by dividing the oil sample filling device 400 and the fuel filling sample device 500.

Since the oil sample filling apparatus 400 and the oil filling sample filling apparatus 500 have substantially the same configuration, the configuration of only one oil filling sample filling apparatus 400 will be described in the description of the present invention.

Oil sample filling device 400, the first sample pump 401 is connected to the automatic oil drain device 200 through the first sample valve 1202, the first sample tank through the oil sample collection line (10F). 406 receives a predetermined amount of the insulating oil drained by the automatic draining device 200 through the lower valley portion 110 of the transformer 100 to the first sample tank 406. The first sample tank 406 is provided with a pressure sensor 402, a temperature sensor 403, a temperature controller 407, a level switch 404, a constant pressure regulator 405 is supplied to a predetermined amount of the sample supplied The pressure and constant temperature are maintained and stored in the sample tank 406.

A discharge port of the first sample tank 406 has a first filling valve 408 connected to the insulating oil inspection device 600, a first sampling valve 410 connected to the sample sample collector 900, a sample oil distribution device 910 The first drain valve 409 is connected to the installation is configured.

The insulating oil inspection device 600,

It consists of a plurality of single inspection device (600a-600d), the first single inspection device (600a), the first filling valve 408 of the oil sample filling device 400 and the fueling sample filling device 500 A first filling port 616 connected in common with the second filling valve 508 is connected to the first measuring tube 613 installed at a lower portion thereof, and to an oil drain pump 911 of the sample oil distribution device 910 to measure the first measurement. The first vacuum valve 611 for discharging the internal air of the pipe 613 and the first discharge valve connected to the lower portion of the first measuring pipe 613 to discharge the insulating oil by the oil drain pump 911. 614 and a first measurement pressure sensor 615 for detecting a pressure in the first measurement tube 613 and controlling a sample drain pump 911 connected to the first vacuum valve 611 to adjust pressure. And a first measuring sensor 612 installed to inspect a characteristic of the insulating oil filled in the first measuring tube 613, and driving and sensor values of the first measuring sensor 612. It consists of a sensor unit 610 to the characteristic inspection by arcs conversion.

The first single inspection device 600a configured as described above has an example in which a chromaticity measurement sensor is installed as the first measurement sensor 612, and an insulation oil chromaticity measurement sensor part is installed as the insulation oil measurement sensor unit 610. The inspection apparatus 600b includes a fluid characteristic measurement sensor as the second measurement sensor 622, an insulating oil fluid characteristic measurement sensor unit as the measurement sensor unit 620, and the third single inspection device 600c performs a third measurement. A moisture measuring sensor is provided as a sensor 632, and an insulating oil moisture measuring sensor part is provided as a measuring sensor part 632. The fourth single inspection device 600d measures an insulation breakdown voltage measuring sensor as a fourth measuring sensor 642. An embodiment in which an insulating oil dielectric breakdown voltage tester is provided as the sensor unit 640.

The sample sample collection device 900 is for collecting a certain amount of the sample of the characteristic test sample of the insulating oil and sending it to an external engine. Is taken as a sample sample. In addition, after inspecting the characteristics of the filtered and purified insulating oil, the final filtered and purified lubricating insulating oil is supplied as a second sample and collected as a complete sample sample. This is to send a sample sample to the requesting agency for reporting the results.

The sample sample collecting device 900 may include a fifth vacuum valve 901 connected to an oil drain pump 911 of the test sample draining device 910, and sampling valves 410 and 510 of the sample filling device 900. The fifth filling port 902 connected in common, the fifth measuring pressure unit 904 for measuring the pressure, the fifth filling hole 902 and the fifth vacuum valve 901 and the fifth measuring pressure unit 904 ) Is configured to be connected to the sample sampler (903), the sample sampler (903), the fifth filling port, the fifth vacuum valve and the fifth measuring pressure is installed in the cap portion, and the cap portion is installed detachably It consists of a collection container, and the container uses a container of a constant capacity.

The sample drainage device 910 includes a first oil drain valve 409 of the oil sample filling device 400, a second oil drain valve 509 of the oil filling sample filling device 500, and the first-fourth fourths. First to fourth vacuum valves 611, 621, 631 and 641 of the single inspection device 600a to 600d and the first to fourth discharge valves 614, 624, 634 and 644, and the sample collecting device. An oil drain pump 911 is commonly connected to the fifth vacuum valve 901 of 900, and includes a test sample oil drain tank 913 and a level gauge 912 for storing insulating oil drained by the oil drain pump 911. It is configured by.

The control device 700 is a PLC or computer control device including the monitor 701, the input control unit 702, the output control unit 703, the analog control unit 704, and the logic processor 705. The control sequence program performs automatic oil insulation test and outputs the test result.

In addition, the single inspection device (600a-600d) are all installed in one insulation housing 801, the temperature so that the measurement temperature of the temperature sensor 803 for measuring the temperature in the insulation housing 801 is a predetermined set temperature It is configured to include a temperature controller 800 for controlling the temperature of the insulating oil inspection device 600 by installing a temperature controller 802 to control.

The present invention constituted as described above includes an automatic oil supply device 400 for draining old electric insulating oil through a lower valve of a transformer, and an automatic oil supply device 300 for filling filtered upper oil through an upper valve of a transformer. The control method of the automatic insulation deterioration inspection apparatus with respect to the electric insulation oil in the live state which is comprised is automatically operated and controlled by the control of the control apparatus 700. FIG.

First, the sample draining process (S10) for opening the drain valve to the sample in the sample tank to drive the draining pump 911 of the sample draining device 910 to drain the sample (S10);

After supplying the sample in the sample tank, the sample supply process (S20) for receiving the sample from the automatic draining device 400 or the automatic lubrication device 300 to the sample tank of the sample filling device 1000 to maintain a constant temperature;

When the sample is filled in the sample tank in the sample supply process (S20), the sample is filled into each measuring tube of the insulating oil inspection device 600, the filling valve of the sample filling device and the filling opening of each measuring tube, sample drain A sample filling process (S30) for driving a drainage pump 911 of the apparatus 910 and filling a predetermined amount of sample in each measuring tube by a vacuum suction method by opening a vacuum valve of each measuring tube;

A measuring temperature adjusting step (S50) of maintaining the measured temperature by controlling the temperature adjusting device 800 such that the temperature inside the housing 801 surrounding the insulating oil inspection device 600 becomes a preset temperature;

If the measurement temperature control is maintained in the measurement temperature adjustment process (S50), the sensors are controlled through the measurement sensor unit 610, 620, 630, 640 of each single inspection device (600a-600d) of the insulating oil inspection device (600) A measurement process of performing insulating oil property inspection (S60);

After the measurement process (S60) for a predetermined time, and after each measurement is completed, open the discharge valve (614, 624, 634, 644) of each measuring tube to drive the drainage pump 911 to drain the sample in each measuring tube (613, 623, 633, 643) A sample drainage process (S70) for draining into 913 is performed.

In addition, when the filling of the sample in the sample tank with the insulating oil inspection device 600 in the sample filling process (S20), the sampling valve of the sample filling device and the fifth filling hole 902 of the sample sample collecting device (900) Open the fifth vacuum valve 901 of the sample collection device 900 to drive the drainage pump 911 of the sample distribution device 910 to fill a predetermined amount of the sample sample with the sample collection container by vacuum suction method. Perform further including a sample sample collection process (S40). In this case, the sample collection container uses a container of constant capacity (e.g. 500 ml bottle), and valves are connected to the upper cap so that the sample sample is filled in the container by vacuum suction method, and the level cap is attached to the upper cap of the container. It is installed so that a constant volume can be taken as a sample sample.

In addition, after receiving the sample as described above, after the completion of the test to discharge the insulating oil in the measuring tube and performs a sample tank sample draining process (S10) for discharging the sample in the sample tank of the sample filling device 1000 again. .

Here, reference numeral 10F of the drawing denotes the second sample transfer line, the 11F the first sample transfer line, the 20F to the 23rd F the first to the fourth measurement filling line, the 24F, the 25F the first and the second Sampling lines, 30F-33F, the first-fourth measuring discharge line, 34F is the first sample draining line, and will not be described separately.

In the sample draining process S10, the insulating oil sample in the first sample tank 406 is opened to the sample draining tank 913 by opening the first draining valve 409 and operating the draining pump 911.

The sample supply process (S20) is a level switch to the first sample tank 406 by opening the first sample valve 1202 and operating the first sample pump 401 for the insulating oil inside the transformer drained through the automatic draining device 200. A first sample transfer step (S21) of filling a predetermined amount up to the upper limit position of 404 is performed. Subsequently, the temperature controller 407 is operated to measure the temperature of the oil filling sample filled in the first sample tank 406 through the temperature sensor 403 to maintain a set value, and to maintain a constant temperature, and through the constant pressure controller 405. The pressure of the first sample tank 406 is kept constant.

In the sample filling process (S30), the first to fourth measurement filling steps (S31 to S34) are simultaneously performed, and the first sample is filled in a measuring tube of each single inspection device 600a to 600d by a vacuum suction method. . Open the first filling valve 408 and the first vacuum valve 611 and operate the oil drain pump 911 so that the measurement sample is filled in the first measuring tube 613 through the first filling hole 616 to vacuum suction. The internal pressure of the first measuring tube 613 is adjusted so that the minute vacuum pressure is maintained by the pressure measured by the first measuring pressure 615. Similarly, the second and fourth measurement filling steps are performed simultaneously.

Then, after performing the sample sample collection process (S40) as necessary, and performs the measurement temperature control process (S50). Measuring temperature control process (S50), by operating the temperature controller 802, the temperature inside the thermal insulation housing 801 through the temperature sensor 803 so that the temperature of the measurement sample in the first to fourth measuring tubes maintain a set value While performing the measurement temperature control step (S51) to control to maintain a constant temperature by measuring the check to see if the set temperature reached to perform a set temperature maintenance step (S52) to maintain the temperature.

Measurement process (S60) can be measured separately or simultaneously depending on the inspection items, the insulation breakdown test step (S61) is the fourth measuring sensor 642 and the dielectric oil breakdown voltage tester installed in the fourth measuring tube (643) The insulating breakdown voltage of the insulating oil is measured through 640 to transmit the measured value to the analog controller 704, and the change amount is displayed on the display screen (monitor) 701.

And while performing the chromaticity measurement step (S62), the fluid characteristic measurement step (S63), the moisture measurement step (S64) together to maintain the measurement state for a certain time (eg set time 10 -30 minutes) measurement to obtain a stable measurement value The completion judgment step (S65) is performed.

Then, the measurement discharge process (S70) is for discharging the sample in each measuring tube, the first measurement discharge (S71), the first discharge valve 614 by operating the heat and the oil pump 911 to measure the first The measurement sample in the pipe 613 is drained to the sample oil distribution tank 913. In the same manner, the second, third, and fourth measurement discharge steps (S72-S74) for draining the sample by opening the discharge valve of each measurement tube are performed together.

When the measurement is completed, the first sample draining process (S10) is performed to wait.

6 shows a flow chart of inspecting a property by receiving a second sample, which is almost the same as a flow chart of inspecting a property by receiving a first sample of FIG. 5, except that the second sample is automatically received to supply a second sample. Only the process of receiving the second sample from the pouring apparatus 300 to the second sample filling apparatus 500 is different. Therefore, the same reference numerals are given for convenience.

In the first sample draining process (S10), the insulating oil sample in the second sample tank 506 is opened to the sample draining tank 913 by opening the second draining valve 509 and operating the draining pump 911.

In the second sample transfer step (S21), the second sample tank 506 is operated by opening the second sample valve 1201 and operating the second sample pump 501 to insulate the oil supplied into the transformer through the automatic lubrication device 300. A certain amount to the upper limit position of the level switch 504.

In the second temperature adjusting step S22, the temperature controller 507 is operated to maintain a constant temperature by measuring the temperature of the sample filled in the second sample tank 506 through the temperature sensor 503 to maintain a set value. The pressure of the second sample tank 506 is maintained constant through the constant pressure regulator 505.

In addition, the sample filling process S30 opens the second filling valve 508 and the first-fourth filling holes 616, 626, 636, and 646 and the first-fourth vacuum valves 611, 621, 631, and 641. Open) and operate the oil drain pump 911 to make a vacuum suction state in the first to fourth measuring tubes (913, 623, 633, 643) to fill the second sample. Filling control is performed by controlling the oil drain pump 911 to be the pressure set by each of the measuring pressures 615, 625, 635, and 645.

Then, the temperature control process (S50), the measurement process (S60) and the discharge process (S70) is controlled in the same process as in FIG.

In the present invention, the first sample filling device 400 and the second sample filling device 500 are separately configured, and the operation description is divided into FIGS. 5 and 6, but only one sample filling device is provided. Characteristic checks can be performed. The present invention is characterized by the characteristics of the filtered and purified insulating oil when the automatic filtration and purification when the automatic insulating oil inspection device of the present invention is installed in the filtration refining device oiling the transformer after filtration and purification by draining the internal insulating oil in the live state Automatic inspection can be used to determine the completion point, and using this, it is possible to automatically filter and purify in the live state.

Therefore, the oil sample filling apparatus 400 and the oil filling sample filling apparatus 500 are separately installed, and when the start of operation, the oil sample, that is, the first sample is supplied as shown in FIG. Subsequently, by receiving the fuel sample, that is, the second sample as shown in FIG. It becomes possible.

On the other hand, even if the sample of each measuring tube in the insulating oil inspection apparatus 600 may remain, since the residual sample of the drainage sample may remain, the process of filling the second sample into the measuring tube and discharging the remaining sample of the drainage sample It is preferable to further include a washing process to clean the sample by a sample and to perform an inspection on the fuel sample. In the case of filtration and purification in the live state, if the second sample is repeatedly filled and inspected and discharged without undergoing the initial washing process, the residual oil of the first sample, that is, the first sample, is cleaned by the second sample. Will not affect.

100: transformer 110: lower valve
120: upper valve 130: upper exhaust valve
200: automatic oiling device 300: automatic oiling device
400: Oil sample filling device 500: Oil sample filling device
600: Insulation oil tester 700: Control device
800: temperature control device 900: sample collection device
910: sample drainage device

Claims (12)

Sample filling device 1000 for receiving a predetermined amount of the insulating oil to test the characteristics of the insulating oil in the sample tank, and adjusts the temperature and pressure of the insulating oil to a predetermined temperature and pressure by the temperature adjusting means and the pressure adjusting means installed in the sample tank. Wow;
A measuring tube receiving a sample from the sample filling device 1000; Filling and discharging means for filling a sample into a measuring tube and discharging insulating oil after inspection; Pressure adjusting means for adjusting a pressure inside the measuring tube; Measuring means for detecting an insulating property of the insulating oil inside the measuring tube; Insulating oil inspection device 600 made of a single inspection device;
An inspection device temperature adjusting device 800 for installing the insulating oil inspection device 600 inside the insulating housing 801 and for controlling and maintaining the internal temperature of the housing 801 to a preset temperature;
A sample oil supply apparatus 910 for discharging the insulating oil from the sample tank of the sample filling apparatus 1000 and the measuring tube of the insulating oil inspecting apparatus 600 to the test sample draining tank;
The sample filling device 1000, the insulating oil inspection device 600, the temperature control device 800, the sample drainage device 910 is controlled by receiving a sample of the insulating oil to be tested to the sample tank, Filling the insulating oil with the insulating oil inspection device 600, controlling the automatic discharge after the completion of the inspection, and displays the characteristic information of the insulating oil measured from each measuring means of the insulating oil inspection device 600 through the display device and the external system Automatic insulating properties of the insulating oil, characterized in that comprises a control device 700 made to transmit the test result information.
According to claim 1, Filling and discharging means for filling and discharging a predetermined amount of the sample into the measuring tube of the insulating oil inspection device 600,
A filling valve in a sample filling device for supplying insulating oil from the sample tank to a measuring tube;
A filling port connected to the filling valve for filling insulating oil under the measuring tube;
A vacuum valve connected to an upper end of the measuring tube;
A discharge valve connected to the measurement pipe for discharging insulating oil;
And an oil drain pump in a sample oil supply device connected to the vacuum valve and the discharge valve in common to perform a pumping action, and configured to fill a measurement sample in a measuring tube by a vacuum suction method.
According to claim 1, wherein the insulating oil properties automatic inspection device,
A sampling valve for collecting insulating oil from a sample tank of the sample filling device; A sample collector for receiving a sample through the filling valve and storing the sample in a sample collection container detachably installed; It is further configured to include a sample sample collection device 900 is connected to the upper end of the sampler and comprises a vacuum valve and a pressure measuring means for measuring the pressure of the sampler connected to the drain pump of the sample oil distribution device. Insulating oil characteristic automatic inspection device.
According to claim 1, wherein the sample filling device,
Insulating oil characteristics characterized in that it further comprises a sample pump connected to the automatic oiling device for draining the internal insulating oil of the transformer is supplied with a certain amount of sample from the automatic oiling device through the first sample valve to fill the sample tank. Inspection device.
According to claim 1, wherein the sample filling device,
A first sample filling device which fills a first sample for inspecting characteristics by receiving an insulating oil inside the transformer discharged from a transformer from an automatic draining device;
And a second sample filling device configured to receive new oil or filtered and purified insulating oil lubricated by a transformer from the automatic lubrication device and fill it as a second sample for inspecting characteristics.
According to claim 1, The insulating oil inspection device 600,
A single measuring device is connected in parallel to the sample filling device and the sample dispensing device so that the measuring means consisting of a measuring sensor and a measuring sensor unit measuring the characteristics of the sample filled in the measuring tube can measure different measurement items, respectively. Insulating oil characteristics automatic inspection device, characterized in that installed.
According to claim 6, The insulating oil inspection device,
A first single inspection device 600a for measuring chromaticity of a sample by an insulating oil chromaticity measuring sensor,
A second single inspection device 600b for inspecting the viscosity, density and dielectric constant of the sample by an insulating oil fluid characteristic measurement sensor;
A third single inspection device 600c for measuring the moisture of the sample by the insulating oil moisture sensor;
And a fourth single inspection device (600d) for testing and measuring the dielectric breakdown voltage of a sample by an insulating oil dielectric breakdown voltage tester.
A sample filling device (1000) for receiving and storing a sample in a sample tank, and an insulating oil inspection device (600) for filling a sample in the sample tank with a predetermined amount of a measuring tube and inspecting a characteristic of the sample in the measuring tube using a measuring means; In addition, the temperature control device 800 for controlling the sample temperature in the insulating oil inspection device 600, the sample oil distribution device 910 for doubling the sample of the insulating oil inspection device 600 and the sample filling device 1000 and In the control method of the automatic insulating oil inspection device comprising a control device 700 for controlling the sample supply, filling and inspection by automatic control,
A sample supply process (S20) for receiving a sample from the automatic draining device 400 or the automatic lubricating device 300 to the sample tank of the sample filling device 1000 and maintaining the sample at a constant temperature;
When the sample is filled in the sample tank in the sample supply process (S20), the sample is filled into each measuring tube of the insulating oil inspection device 600, the filling valve of the sample filling device and the filling opening of each measuring tube, sample drain A sample filling process (S30) for driving a drainage pump 911 of the apparatus 910 and filling a predetermined amount of sample in each measuring tube by a vacuum suction method by opening a vacuum valve of each measuring tube;
A measuring temperature adjusting step (S50) of maintaining the measured temperature by controlling the temperature adjusting device 800 such that the temperature inside the housing 801 surrounding the insulating oil inspection device 600 becomes a preset temperature;
If the measurement temperature control is maintained in the measuring temperature adjusting process (S50), the measuring process of controlling the sensors through the measuring sensor unit of the insulating oil inspection apparatus 600 to perform the insulating oil characteristic test, display and output the inspection information ( S60);
After performing the measurement process (S60) for a predetermined time, when each measurement is completed, by opening the discharge valve of each measuring tube to drive the oil pump 911 to drain the sample in each measuring tube into the oil tank (913) Control method of the automatic insulating properties of the insulating oil to perform the sample draining process (S70).
The method of claim 8, further comprising a sample tank sample draining process (S10) for discharging the insulating oil in the measuring tube and the discharge of the sample in the sample tank of the sample filling apparatus 1000 after the completion of the test receiving the sample. Control method of insulating oil property automatic inspection device.
The method of claim 8, wherein the measuring process (S60)
Depending on the measurement item, a plurality of single inspection devices are driven in parallel to measure simultaneously or sequential measurement, but the measurement time is controlled to perform a stable measurement by maintaining the measurement time for a predetermined time set according to the measurement item. Control method of automatic insulating device for insulating oil characteristics.
The method of claim 8, wherein the control method of the insulating oil property automatic inspection device,
Open the sampling valve of the sample filling device and the fifth filling port 902 of the sample collecting device 900, open the fifth vacuum valve 901 of the sample collecting device 900, and drain the sample drainage device 910. And a sample sample collecting step (S40) of filling the sample sample container with a predetermined amount by a vacuum suction method by driving the pump (911).
The method of claim 8, wherein the control method of the insulating oil property automatic inspection device,
If you are testing the properties of different insulating oils,
The method may further include a cleaning process of cleaning the measuring tube and the filling line of the sample by performing a process of filling and discharging the sample supplied to the sample tank to the measuring tube of the insulating oil inspection device at least once or at least once. Control Method of Automatic Insulation Oil Inspection System.

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