KR200324878Y1 - Transformer dry-out system - Google Patents

Abstract

The present invention relates to an insulating oil filtration system of a transformer, the object of which is to continuously filter the insulating oil even in the online state of the transformer.

To this end, according to the insulating oil filtration system of the transformer according to the present invention, the insulating oil escaped through the outlet port 2 of the transformer 1 is the outline 21 → pump 30 → filter cartridge 41 is built-in The filter vessel 40 is filtered while passing through the inline 22, and then enters the transformer 1 again through the inlet port 3. Therefore, there is an effect that can continuously filter the insulating oil even in the on-line state of the transformer (1), it is also possible to continuously drive the mechanical equipment supplied through the transformer (1). In addition, the insulating oil before and after the filtration can be sampled at the inlet and the outlet side line of the filter container 40, and the moisture content of the filtered insulating oil is displayed through the moisture measuring device 60, thereby visually increasing the degree of filtration of the insulating oil. There is an advantage that can be easily checked.

Description

Insulating oil filtration system of transformer {TRANSFORMER DRY-OUT SYSTEM}

The present invention relates to an insulating oil filtration system of a transformer, and more particularly, to an insulating oil filtration system of a transformer capable of continuously filtering the insulating oil even when the transformer is online.

In general, a transformer is a device that increases or decreases the voltage of an alternating current by using electromagnetic induction in an electrical installation, and includes a transformer main body and radiators installed on each of the left and right sides of the transformer main body. radiator) and a conservator in which insulating oil is stored at a certain level.

In these transformers, the most important part of the state determination during operation is the insulating oil stored in the conservator, and oxidation of the insulating oil is fatal to the transformer. That is, the transformer is inflated or shrunk according to the heat and the temperature of the outside air generated in the coil winding during operation, and this may cause foreign substances such as moisture in the insulating oil is mixed and oxidized. Therefore, when the transformer is used for a long time, foreign substances (moisture, carbon, sludge, etc.) mixed through a separate filtration device have been removed while the transformer is turned off.

However, in the conventional oil filtration method of the transformer, since the filtration must be performed while the transformer is turned off, the plant equipment powered by the transformer also does not operate, and there is a significant disadvantage of the production damage.

The present invention is to solve this problem, it is an object of the present invention to provide an insulating oil filtration system of a transformer that can continuously filter the insulating oil even in the online state of the transformer.

In addition, another object of the present invention is to provide an insulating oil filtration system of a transformer that can easily check the degree of filtration of the insulating oil during the filtration operation of the insulating oil.

1 is a perspective view showing the appearance of the insulating oil filtration system of the transformer according to the present invention.

2 is a system diagram showing an insulating oil filtration system of a transformer according to the present invention.

* Description of the symbols for the main parts of the drawings *

10. Body

20. Oil circulation line

30..Oil Pump

40..Filter container

50 .. Vacuum pump

60..Moisture Meter

The present invention for achieving this object is;

A filtration system for filtering insulating oil stored in a transformer;

This insulating oil filtration system; An oil circulating line detachably connected to the transformer side to form a closed circuit for circulating the insulating oil, and a filter vessel with a filter built in the middle of the oil circulating line to filter impurities from the circulating insulating oil. An oil pump disposed in the middle of an oil circulation line between the insulated oil outlet port side of the transformer and the inlet side of the filter vessel to forcibly supply the insulated oil to the side, and the filter vessel during the initial flow of the insulated oil into the filter vessel by starting the oil pump And an air vent line provided at an upper side of the filter vessel for discharging the air therein, and a vacuum pump disposed in association with the upper side of the filter vessel for forcibly discharging the gas collected by being filtered out of the filter vessel to the outside. It is done.

In addition, the outlet line of the filter vessel is characterized in that the moisture measuring device for measuring and displaying the moisture content of the insulating oil passing through the filter vessel.

In addition, at least one of the inlet line or the outlet line of the filter vessel is characterized in that the sample port for sampling the insulating oil passing through the oil circulation line is provided.

In addition, the sample port is a first sample port for collecting the insulating oil is arranged in the inlet line of the filter vessel before being filtered, and a second sample port for collecting the insulating oil after being placed in the outlet line of the filter vessel and filtered Characterized in that made.

Hereinafter, one preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings. Briefly, the accompanying drawings, Figure 1 shows the appearance of the insulating oil filtration system of the transformer according to the present invention, Figure 2 is a schematic diagram of the insulating oil filtration system according to the present invention.

1 and 2, the insulating oil filtration system of the transformer according to the present invention forms an external shape and is connected to a main circuit 10 in which a control panel 11 is installed, a transformer 1 side in which insulating oil is stored, and a closed circuit. A filter vessel 40 having a circulating oil circulation line 20 and a filter cartridge 41 installed in the middle of the oil circulation line 20 to filter impurities from the insulating oil, and the filter vessel 40 The oil pump 30 which is arrange | positioned at the inlet side and pumps and supplies insulating oil is provided.

The main body 10 forms an outer shape of the insulating oil filtration system, and inside thereof, mechanical components such as the pump 30 and the filter container 40 are compactly installed.

The oil circulation line 20 is divided into an outline 21 and an inline 22 based on the filter container 40, and thus, the transformer 1 and the insulating oil filtration system in which the insulating oil is stored form a closed circuit. That is, one end of the outline 21 is detachably connected to the outlet port 2 of the transformer 1 and the other end is connected to the inlet side of the filter container 40. And one end of the inline 22 is connected to the outlet side of the filter container 40 and the other end is detachably connected to the inlet port (3) of the transformer (1). In addition, an oil pump 30 is arranged in the middle of the outline 21, that is, between the outlet port 2 of the transformer 1 and the inlet side of the filter container 40. Accordingly, when the oil pump 30 is started, the insulating oil in the transformer 1 flows out through the outlet port 2, and continues through the outline 21, the filter vessel 40, and the inline 22 again. 1) You enter inside. In the embodiment of the present invention, the oil pump 30 is composed of a rotary gear pump capable of pumping about 19 liters per minute. In addition, a flowmeter 70, a pressure switch 71, a pressure gauge 72, and the like are disposed on the outlet side of the oil pump 30. Reference numeral "73" is a thermometer installed in the inlet line of the oil pump 30 to measure the temperature of the insulating oil.

In addition, the filter container 40 filters the insulating oil forcibly pumped through the oil pump 30. For this purpose, the filter container 40 includes moisture (including dissolved water) and impurities (mostly carbon particles) mixed in the insulating oil. A special filter cartridge 41 is built in to filter the filter. In addition, the upper portion of the filter container 40, the air vent line 42 for discharging the air in the filter container 40 to the outside when the insulating oil is initially introduced, and the vacuum pump for discharging the gas mixed in the insulating oil to the outside 50 are connected. The vacuum pump 50 is connected to the upper side of the filter container 40 through the vacuum exhaust line 51 so that when the gas generated in the filter container 40 is forcibly discharged to the outside.

Meanwhile, sample ports 81 and 82 are provided in the inlet line and the outlet line of the filter container 40 to check whether the insulating oil is normally filtered. The sample ports 81 and 82 are formed on the outline 21 connecting the outlet side of the oil pump 30 to the inlet side of the filter vessel 40, and the filter vessel. The second sample port 82 is arranged on the inline 22 connected to the outlet side of the 40. The first and second sample ports 81 and 82 are provided with valves 83 and 84, respectively, so that the insulating oil before and after filtration can be easily sampled.

In addition, at the outlet line of the filter container 40, that is, the outline 22, a moisture sensor 60 is arranged to measure and display the number (ppm) of moisture mixed in the filtered insulating oil. . In an embodiment of the present invention, it is preferable to set the moisture content of the insulating oil to 10 ppm (part per million) or less, and through this, it is possible to set the filtration work time and the like. The moisture measuring device 60 is installed on one side of the control panel 11 so that the operator can easily operate while checking.

Next will be described the operation and the effects of the insulating oil filtration system according to the present invention configured as described above.

First, the operator connects the oil circulation line 20 to the outlet port 2 and the inlet port 3 of the target transformer 1 to configure the transformer 1 and the filtration system in a closed circuit. Then, the filtration working time is set through the operation buttons provided on the control panel 11.

When the oil pump 30 is started in such a state, the insulating oil in the transformer 1 is pumped and supplied into the filter container 40 through the oil circulation line 20 (outline 21), where impurities contained in the insulating oil are present. (Moisture, gas, etc.) is filtered. At this time, the air in the filter container 40 is discharged to the outside through the air vent line 42 in the initial process of the insulating oil flows into the filter container 40, the gas remaining in the filter container 40 to escape from the insulating oil Impurities are discharged to the outside by the vacuum pump 50. In addition, since the pressure in the oil circulation line 20 is measured through the pressure gauge 72, it is easy to know when to replace the filter cartridge 41 in the filter container 40 in which foreign matter is collected.

Subsequently, the insulating oil in which impurities are filtered in the filter container 40 is introduced into the transformer 1 through the oil circulation line 20 (in line 22). In addition, since the moisture content rate of the filtered insulating oil is displayed numerically in the moisture measuring device 60 arranged in the outlet line of the filter container 40, the degree of insulating oil filtration can be visually checked and the working time can be accurately operated. have.

In addition, when the insulating oil is sampled through the first and second sample ports 81 and 82 arranged on the inlet and the outlet lines of the filter container 40, the state of the insulating oil before and after filtration can be easily checked, and the filter container can be easily checked. The performance of the filter cartridge 41 of 40 can also be confirmed.

As described in detail above, according to the insulating oil filtration system of the transformer according to the present invention, the insulating oil escaped through the outlet port of the transformer is filtered while passing through the outline → pump → filter container with the built-in filter cartridge → inline, again Enter the transformer through the inlet port. Therefore, there is an effect that can continuously filter the insulating oil even in the online state of the transformer, it is also possible to continuously drive the mechanical equipment powered by the transformer.

In addition, since the insulating oil before and after filtration can be sampled at the filter container inlet and outlet lines, the moisture content of the filtered insulating oil is displayed through a moisture meter, which makes it easy to visually check the degree of filtration of the insulating oil. have.

Claims (4)

In the filtration system for filtering the insulating oil stored in the transformer (1), The insulating oil filtration system, An oil circulation line 20 detachably connected to the transformer 1 and forming a closed circuit to circulate the insulating oil; A filter container (40) having a filter (41) built therein so as to filter impurities from insulating oil circulating and installed in the middle of the oil circulation line (20); An oil pump disposed in the middle of the oil circulation line 20 between the insulating oil outlet port 2 side of the transformer 1 and the inlet side of the filter vessel 40 to forcibly supply the insulating oil to the filter vessel 40 side. 30, Air vent line provided on the upper side of the filter vessel 40 to discharge the air in the filter vessel 40 during the initial flow of the insulating oil into the filter vessel 40 by the start of the oil pump ( 42), Insulating oil filtration system of a transformer, characterized in that it comprises a vacuum pump 50 is disposed in association with the upper side of the filter container 40 to forcibly discharge the gas collected by the filter container 40 to the outside. . The method of claim 1, Insulating oil filtration system of a transformer, characterized in that the moisture measuring unit (60) for measuring and displaying the water content of the insulating oil passing through the filter container (40) is arranged in the outlet line of the filter container (40). The method of claim 1, At least one of the inlet line or the outlet line of the filter container 40 is provided with a sample port 81, 82 for sampling the insulating oil passing through the oil circulation line 20, characterized in that the transformer Insulating oil filtration system. The method of claim 3, wherein The sample port 81, 82, A first sample port 81 disposed at an inlet side line of the filter container 40 to collect insulating oil before being filtered; Insulating oil filtration system of a transformer, characterized in that it consists of a second sample port (82) for collecting the insulating oil after being disposed in the line of the outlet side of the filter vessel (40).