KR101037473B1 - The filtering system of isolation oil - Google Patents

Abstract

PURPOSE: An insulating oil purifying system is provided to increase the stability of a high-tension transforming function in a high-power transformer, a high-voltage transformer, or X-ray power by eliminating fine particles causing a partial micro-discharging phenomenon. CONSTITUTION: An insulating oil purifying system includes an insulating oil inlet(1), a filtering unit(10), a moisture eliminating unit(20), a trapping unit(30), a storing unit(40), a first vacuum pump(32), and an insulating oil discharging unit(50). The insulating oil inlet introduces insulating oil. The filtering unit includes a heater(11), a filter(12), and a pump(13). The moisture eliminating unit includes a spraying nozzle and a chamber. The trapping unit discharges moisture to the outside and traps the insulating oil. The storing unit stores the insulating oil and eliminates bubbles under a vacuum state. The vacuum pump implements a vacuum exhaust process. The insulating oil discharging unit discharges the insulating oil.

Description

The filtering system of isolation oil

The present invention relates to an insulating oil refining system, and more specifically, to remove the water and bubbles contained in the insulating oil or to remove the water, bubbles and impurities contained in the recycled insulating oil before injecting the insulating oil manufactured by the manufacturer to the transformer The present invention relates to an insulating oil refining system that improves the stability and prolongs the service life.

Transformer refers to a device for supplying electricity to homes or industrial complexes by lowering the voltage through a transformer through high voltage electricity. The transformer is filled with insulating oil to insulate and cool the heat generated therein.

When the transformer is used for a long time, the deterioration progresses due to impurities such as dissolved oxygen and moisture included in the insulating oil included in the insulating oil, thereby lowering the insulation degree. Since moisture, bubbles, and impurities are contained in a large amount of insulating oil manufactured by a manufacturer, the deterioration of the insulating oil proceeds rapidly, and a large-capacity transformer periodically replaces or filters and recirculates the insulating oil.

The insulating oil provided by the manufacturer contains most of the moisture and bubbles. Therefore, if the insulating oil provided by the manufacturer is directly charged into the transformer, the insulating property and insulation durability of the insulating oil may be reduced. As a measure to compensate for this, the insulation clearance distance is increased to maintain insulation, or the degraded insulating oil is periodically replaced or Filtering and reinjection can help maintain the transformer's function. Various techniques are proposed in this way.

Patent application No. 10-2008-0041742 relates to a transformer insulating oil dehumidification apparatus, which is directly connected to the transformer and is an insulating oil dehumidifier that can be operated even while the transformer is operating, and proposes a technology to remove the moisture of the insulating oil by the heat exchanger. This technique has the advantageous effect of dehumidifying the insulating oil without interrupting the operation of the transformer.

Patent No. 0551941 relates to a transformer insulating oil insulation reinforcement device in an uninterrupted state, and is a device for reinforcing insulation by filtering the insulating oil when the transformer is in an uninterrupted state by using a device consisting of an oil pump, a filtration device, a vacuum pump It is a technology to filter the deteriorated insulating oil of the transformer and recirculate it.

Patent No. 0657857 relates to an automatic supplying device and a method of transformer insulating oil in a live state, and a technology related to an apparatus and a method for enabling automatic replacement and replacement in an uninterruptible state to maintain a certain amount of the insulating oil of a transformer. It suggests a technology that can be injected by filtration.

Utility Model No. 0324878 relates to an insulating oil filtration system of a transformer, which discharges the deteriorated insulating oil of a transformer to a pump and passes the discharged insulating oil through a filter cartridge to be injected back into the transformer. It has the effect of filtering the insulating oil.

Patent No. 0587958 relates to an oil refiner for a transformer, and a technology for attaching an oil refiner to a transformer, and an oil refiner attached to the transformer has a built-in filter including a magnet to remove impurities. In particular, metal sludge can be effectively removed. It is a technique that can be removed, and also allows the pump to circulate the insulating oil of the transformer between the transformer and the refiner.

Registered utility model No. 0296671 relates to a refiner for a transformer. The refiner attached to the transformer is a technology for filtering the sludge with a bubble preventing connector and a moisture absorption belt embedded therein to circulate the filtered insulating oil back to the transformer.

The above technologies relate to a technology for continuously circulating and reusing insulating oil in an uninterruptible state installed in a transformer, and does not provide a method for removing bubbles and water contained in insulating oil before being put into a transformer.

In addition, the prior art has a problem that the cost can be increased because the insulating oil refining device must be installed separately for each transformer because the system is attached to most transformers.

The present invention has been made to solve the above problems, the present invention is to deteriorate the insulating oil by removing the bubbles and moisture contained in the insulating oil before the insulating oil is put into a transformer such as a high power transformer, high voltage transformer or high-voltage transformer of X-ray power supply The purpose of the present invention is to provide an insulating oil refining system that can extend the service life of the insulating oil and increase the stability of the transformer.

In addition, an object of the present invention is to provide an insulating oil refining system that can separately collect used insulating oil and reuse it as recycled insulating oil.

In order to achieve the above object, the present invention provides an insulating oil refining system for refining insulating oil, comprising: an insulating oil inlet (1) for injecting insulating oil; A heater 11 connected to the insulation oil inlet 1 through a pipe and for heating the insulation oil introduced through the inlet 1 through the insulation oil inlet 1 to 30 to 90 ° C., and the heater Filter 12 for sequential filtration in order of particle size in order to facilitate the flow of the insulating oil heated in (11), and a pump for transferring the insulating oil by forming a vacuum in the pipe so that the insulating oil flows in (13) Filtering unit (10) consisting of; An injection nozzle connected to the filtering unit 10 and a pipe and spraying insulating oil introduced through the pump 13 in a vacuum state to remove bubbles and dissociating moisture and insulating oil primarily, and the injection nozzle A water removal unit (20) comprising a chamber in which water and insulating oil sprayed and dissociated in the chamber are temporarily stored; A trap unit 30 connected to the water removing unit 20 and a pipe, for discharging the water and the insulating oil introduced from the water removing unit 20 to the outside and trapping the moisture to the outside; It is connected to the water removal unit 20 and the trap unit 30 by a pipe, and removes bubbles in a vacuum state while storing the insulating oil passing through the water removal unit 20 and the trap unit 30. A storage unit 40 for carrying out; A first vacuum pump 32 connected to the trap unit 30 by a pipe and configured to evacuate the water removing unit 20 and the storage unit 40; It is connected to the storage unit 40 and the pipe, the insulating oil discharge unit 50 for discharging the insulating oil stored in the storage unit 40; provides an insulating oil purification system comprising a.

The filtering unit of the present invention is to lower the viscosity of the insulating oil by heating the insulating oil to lower the pressure resistance when passing through the filter, so that the moisture can be easily separated and removed from the insulating oil in the water removal unit. The heating temperature of the insulating oil can be used by heating to approximately 30 ~ 90 ℃. The filter includes a primary filter for filtering particles having a size of 4 to 6 μm present in the insulating oil, a secondary filter for filtering particles having a size of 2 to 4 μm present in the insulating oil having passed through the primary filter, and the second filter. It may be composed of a tertiary filter for filtering particles of 1 ~ 2 ㎛ size present in the insulating oil passed through the secondary filter. This is to prevent excessive resistance from occurring in the insulating oil passing through the filter by configuring the filter in three stages. The filtered insulating oil is pumped by a pump, and when the insulating oil is injected, the insulating pipe is injected into a vacuum by driving the pump. The filtered insulating oil is pumped by the pump and transferred to the water removal unit.

In the present invention, the water removal unit may be composed of a spray nozzle for spraying the insulating oil flowing through the pump, and a chamber in which the insulating oil sprayed from the spray nozzle is temporarily stored. The pumped and conveyed insulating oil is first sprayed into the chamber through the injection nozzle. In the vacuum state, the water dissociates from the insulating oil and is separated from the insulating oil while being sprayed with fine grains. In addition, the bubbles are expelled and extinguished in the water removal unit maintaining the vacuum state. The insulating oil separated from the water is temporarily stored in the chamber and transferred to the storage unit through a pipe, or transferred together with the water to the insulating oil trap unit.

In the present invention, the trap unit may further include a first vacuum pump connected to the trap unit and the pipe for evacuating the moisture removal unit and the storage unit. The first vacuum pump may be composed of a rotary pump. Moisture entering the trap unit is discharged to the outside by driving the vacuum pump, and the insulating oil is transferred to the storage unit by the insulating oil trap. In addition, the first vacuum pump functions to evacuate the water removal unit and the storage unit when the purification system of the present invention is driven. That is, the pipe for connecting the water removal unit, the storage unit and each unit to each other is maintained in a vacuum state, in the vacuum state bubbles can be removed from the insulating oil.

In the present invention, the storage unit, the insulating oil passed through the water removal unit and the trap unit is introduced and stored, it may be composed of a tank that is maintained in a vacuum state to remove the remaining bubbles. Bubbles remaining in the insulating oil entering the storage tank can be removed once again as it enters the tank under vacuum.

In the present invention, the insulating oil discharge unit may be configured by a second vacuum pump connected to the insulating oil discharge port, the insulating oil discharge port and a vacuum is formed in the discharge port to open and close the insulating oil to discharge the insulating oil. The second vacuum pump is for forming a vacuum in the insulating oil outlet so that the insulating oil can be discharged through the insulating oil outlet. By forming a vacuum, the insulating oil stored in the storage tank by the vacuum pressure is discharged to the outside of the insulating oil drum or the like through the outlet.

In addition, the present invention is an insulating oil refining method for refining insulating oil, the insulating oil input step of introducing the insulating oil through a pipe; A filtering step of filtering the injected insulating oil; A water and bubble removing step of separating water contained in the filtered insulating oil from the insulating oil and removing bubbles; An insulating oil trap step for discharging the water separated from the insulating oil having undergone the water and bubble removing step and trapping the insulating oil; A storage step of storing the insulating oil from which the moisture and bubbles are removed and the insulating oil trapped in the trap step; And a discharging step of discharging the stored insulating oil.

In the present invention, the filtering step may include a heating step for lowering the viscosity by heating the insulating oil, a filtration step for filtering the fine particles contained in the heated insulating oil, and a pumping step for transferring the filtered insulating oil. . The reason for heating the insulating oil is to reduce the resistance of the insulating oil to reduce the resistance passing through the filter, and to facilitate moisture removal because it can be sprayed with fine particles in the step of removing water and bubbles. The pumping step allows the insulating oil of the insulating oil inlet to be introduced into the pipe by a pump to pass through the filter, and to transfer the insulating oil to the water and bubble removing step.

In the present invention, the filtration step includes a primary filter for filtering particles having a particle size of 4 to 6 μm and a secondary filter for filtering particles having a size of 2 to 4 μm present in the insulating oil passing through the primary filter. And, it may be filtered by a tertiary filter for filtering the particles of 1 ~ 2 ㎛ size present in the insulating oil passed through the secondary filter. By filtering the fine particles over three orders, most of the particles remaining in the insulating oil can be removed.

In the present invention, the water and bubble removing step may include a spraying step of spraying the insulating oil transferred by the pumping through the injection nozzle, and a temporary storage step of temporarily storing the sprayed insulating oil. When the insulating oil is sprayed through the injection nozzle in a vacuum state, water is dissociated from the insulating oil and separated, and bubbles contained in the insulating oil burst and disappear. Therefore, moisture and insulating oil can be separated from each other.

The present invention removes moisture and bubbles (dissolved oxygen), which are the main causes of deterioration of insulating oil, and reduces the degree of insulation to remove fine particles that cause partial microdischarge. It has the effect of increasing the stability, extending the life and making the management convenient.

In addition, the present invention, in particular, the insulating oil is frequently heated by the heat generated in the X-ray tube during operation in the X-ray generator, as well as the more rapidly deteriorated by the X-ray generated in the X-ray tube, the moisture contained in the insulating oil and By removing the bubble in advance, the deterioration of the insulating oil is remarkably delayed, thereby increasing the stability of the function of the X-ray generator and extending the life.

1 is a circuit diagram of an insulating oil purification system according to an embodiment of the present invention.
Figure 2 is a flow chart of the insulating oil purification method of an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, this is only to describe in detail enough to be able to easily carry out the invention by those skilled in the art, which does not mean that the technical spirit and scope of the present invention is limited.

First, prior to describing the preferred embodiment of the present invention, it is noted that in the various embodiments of the present invention, the same reference numerals are used for the same configuration.

1 is a circuit diagram of an insulating oil purification system according to an embodiment of the present invention, and FIG. 2 is a flowchart of an insulating oil purification method according to an embodiment of the present invention.

Referring to Figure 1, an embodiment of the insulating oil purification system according to the present invention will be described in detail. The insulating oil in the present invention includes not only insulating oil that has been made and used by the insulating oil manufacturer but also recycled insulating oil. The insulating oil is transferred to the filtering unit 10 through the pipe through the insulating oil inlet (1). Since the insulating oil itself cannot be transferred by itself, it is transferred by the pump 13 of the filtering unit 10.

The filtering unit 10 is composed of a heater 11, a filter 120 connected to the heater 11 and a pump 13 connected to the filter, and the heater 11 supplies insulating oil transferred to the water removal unit 20. The heating temperature is about 30 to 90 ° C. The heating of the insulating oil lowers the viscosity, lowers the resistance to pass through the filter, and easily removes moisture from the water removal unit 20. The heated insulating oil is transferred to the filter 12 and passed through the filter 12. The filter 12 includes a primary filter 12a for filtering impurity particles having a size of 4 to 6 μm, which is present in the insulating oil, and a primary filter. Secondary filter 12b for filtering impurity particles having a size of 2 to 4 µm present in the insulating oil passing through the filter 12a, and impurities having a size of 1 to 2 µm present in the insulating oil passing through the secondary filter 12b. It consists of a tertiary filter 12c that filters the particles, and lowers the steps to limit the size of the particles being filtered. As to remove the fine particles over the third impurity to the insulating oil can be transported without a large passage resistance. Filtered insulating oil is conveyed by the pump 13 flows into the water removal unit 20.

The water removal unit 20 includes a spray nozzle (not shown) for spraying insulating oil and a chamber (not shown) for temporarily storing the sprayed insulating oil. In the water removal unit 20, the insulating oil is sprayed into the fine particles so that the water can be dissociated from the insulating oil in a vacuum state, and the bubbles present in the insulating oil particles sprayed in the vacuum state are blown out. Therefore, bubbles are primarily removed from the water removal unit, and water is dissociated from the insulating oil to exist separately from the insulating oil.

Insulating oil is separated from the water is transferred to the insulating oil trap unit 30 through a pipe. The conveyance is conveyed by the driving of the first vacuum pump 32 in the insulating oil trap unit 30, and the first vacuum pump 32 functions to discharge moisture to the outside through the insulating oil trap 31. Part of the insulating oil once passed through the water removal unit 20 is immediately transferred to the storage unit 40, a part is transferred to the insulating oil trap unit 30 to discharge the water separated from the insulating oil to the outside, the insulating oil It is transferred to the storage unit 40. Insulating oil trap 31 uses the principle that the moisture is located at the bottom because the specific gravity is large and the insulating oil is placed at the top because the specific gravity is smaller than the water. Therefore, the upper insulating oil is directly directed to the storage unit 40, the insulating oil with the water of the lower is transferred to the insulating oil trap 31, the moisture is discharged and the insulating oil is condensed in the liquid phase is transferred to the storage unit 40.

Storage unit 40 is composed of a storage tank (41). Insulating oil is stored in the storage tank, and the stored insulating oil is discharged to the insulating oil drum through the insulating oil discharge unit 50. The insulating oil discharge unit 50 includes a pipe connected to the storage tank 41 and an insulating oil discharge port 51 positioned at an end of the pipe. The insulating oil transferred through the storage tank 41 is opened at the upper end of the discharge port 51 to contain the insulating oil in a drum and discharged to the outside. If the insulating oil is not easily transferred even when the valve is opened, the insulating oil may be discharged by making the outlet into a vacuum state by the second vacuum pump 52 connected to the outlet 51 by a pipe.

Here, the solid lines refer to the pipe (P). The piping may be constructed using metal piping or in some cases hoses. The pipe where the V2 valve is installed is a bypass pipe. When not driving the refining system of insulating oil is a valve and pipe for removing the insulating oil in the water removal unit 20 and the like. The pipe provided with the V4 valve is a bypass pipe for transferring the insulating oil remaining in the water removal unit 20 to the storage tank 41 when the system is not driven. V17 and V18 are for future use. It may also be used if a second outlet is needed or if the pipe needs to be cleaned. The remaining valves are valves for opening and closing the insulating oil entering each unit.

In addition, in the case where the entire system installed with each unit is configured to be movable, the system may be configured to be able to purify the insulating oil of each transformer while carrying the system on a vehicle, which is also within the scope of the present invention. It is. In the case of a mobile refining system, it may be difficult to purify a large amount of insulating oil, but in the case of refining the insulating oil of the transformer individually, it is not necessary to configure the system too large. In addition, in the case of refining a large amount of insulating oil, it is also possible to build a plant to which the system according to the present invention is applied to purify the insulating oil.

2 is a flow chart of a method for purifying insulating oil which is an embodiment of the present invention. Insulating oil purification method according to the present invention, as shown in Figure 2, the insulating oil input step (SA) for injecting the insulating oil through the pipe; A filtering step (S2) of filtering the injected insulating oil; Water and bubble removing step (S3) of separating the water contained in the filtered insulating oil with the insulating oil and removing bubbles; An insulating oil trap step (S4) for discharging the water separated from the insulating oil having passed the moisture and bubble removing step and trapping the insulating oil; A storage step (S5) of storing the insulating oil in which the moisture and bubbles are removed and the insulating oil trapped in the trap step; And discharge step (S6) for discharging the stored insulating oil.

Since insulating oil must be introduced into the system, the insulating oil is introduced into the insulating oil refining system through the insulating oil input step (S1). The injection of insulating oil takes place via a pump.

When the insulating oil is input, it goes through a filtering step (S2) for filtering the insulating oil before being transferred to the pump. The filtering step (S2) comprises a heating step of heating the insulating oil with a heater first, a filtration step of filtering the heated insulating oil, and a pumping step of transferring the filtered insulating oil to a water and bubble removing step by a pump. The filtration step optionally includes a primary filter for filtering particles having a particle size of 4 to 6 μm, a secondary filter for filtering particles having a size of 2 to 4 μm present in the insulating oil passing through the primary filter; In addition, the filtration step may be performed by a tertiary filter for filtering particles having a size of 1 to 2 μm present in the insulating oil passing through the secondary filter. If finer particles also need to be filtered, a filtration step can be performed using a filter using a filtering network to filter smaller particles.

Insulating oil passing through the filtering step (S2) is subjected to the step of removing water and bubbles (S3). Water and bubble removal step (S3) is composed of a spraying step of spraying the insulating oil into fine particles using a spray nozzle, and a temporary storage step of temporarily storing the sprayed insulating oil. The reason why the insulating oil is sprayed is that dissociation of moisture can easily occur when the insulating oil is sprayed with fine particles in a vacuum state, and also bubbles in the insulating oil can be blown out in a vacuum state.

Insulating oil from which water and bubbles are removed may be directly proceeded to a storage step, and when the water and the insulating oil are present together in a separated state, the insulating oil trap step S4 completely separates the moisture from the insulating oil. The insulating oil trap step S4 condenses the insulating oil introduced into the insulating oil trap and separates it from water, and the separated water is discharged to the outside through the vacuum pump. In addition, a vacuum step may be further added to the insulating oil trap step so that the water and bubble removing step and the storage step may be performed in a vacuum.

Insulating oil that has passed through the insulating oil trap step and the insulating oil from which moisture and bubbles are removed are subjected to a storage step (S5). In the storage step, the insulating oil is introduced into the storage tank, and bubbles remaining in the insulating oil in the vacuum state may be secondarily removed as the insulating oil flows into the storage tank.

After the insulating oil storage step (S5), the insulating oil in the storage tank may be discharged to the outside through the insulating oil discharge step to be used or reused.

Although some embodiments have been described above by way of example, it will be apparent to those skilled in the art that the present invention may be embodied in many other forms without departing from the spirit and scope thereof. Accordingly, the above-described embodiments should be considered as illustrative and not restrictive, and all embodiments within the scope of the appended claims and their equivalents shall be included within the scope of the present invention.

1: Insulation oil inlet
10: filtering unit 11: heater
12 filter 13 pump
20: moisture removal unit
30: trap unit 31: insulating oil trap
32: first vacuum pump
40: storage unit
50: insulating oil discharge unit 51: insulating oil discharge port
52: second vacuum pump
V1 ~ V18: On-off valve P: Piping

Claims (11)

In the insulating oil refining system for refining insulating oil,
An insulation oil injection port 1 for injecting insulation oil;
A heater 11 connected to the insulation oil inlet 1 through a pipe and for heating the insulation oil introduced through the inlet 1 through the insulation oil inlet 1 to 30 to 90 ° C., and the heater Filter 12 for sequential filtration in order of particle size in order to facilitate the flow of the insulating oil heated in (11), and a pump for transferring the insulating oil by forming a vacuum in the pipe so that the insulating oil flows in (13) Filtering unit (10) consisting of;
An injection nozzle connected to the filtering unit 10 and a pipe and spraying insulating oil introduced through the pump 13 in a vacuum state to remove bubbles and dissociating moisture and insulating oil primarily, and the injection nozzle A water removal unit (20) comprising a chamber in which water and insulating oil sprayed and dissociated in the chamber are temporarily stored;
A trap unit 30 connected to the water removing unit 20 and a pipe, for discharging the water and the insulating oil introduced from the water removing unit 20 to the outside and trapping the moisture to the outside;
It is connected to the water removal unit 20 and the trap unit 30 by a pipe, and removes bubbles in a vacuum state while storing the insulating oil passing through the water removal unit 20 and the trap unit 30. A storage unit 40 for carrying out;
A first vacuum pump 32 connected to the trap unit 30 by a pipe and configured to evacuate the water removing unit 20 and the storage unit 40;
An insulating oil discharge unit 50 connected to the storage unit 40 by a pipe and for discharging the insulating oil stored in the storage unit 40;
Insulating oil refining system, characterized in that consisting of.
delete The method according to claim 1,
The filter 12 includes a primary filter 12a for filtering particles having a size of 4 to 6 µm present in the insulating oil, and particles having a size of 2 to 4 µm existing in the insulating oil having passed through the primary filter 12a. Insulating oil purification, characterized in that it comprises a secondary filter (12b) for filtering the filter, and a tertiary filter (12c) for filtering particles having a size of 1 ~ 2 ㎛ present in the insulating oil passed through the secondary filter (12b) system.
delete delete The method according to claim 1,
The storage unit 40,
Insulating oil refining system, characterized in that consisting of a tank (41) which is kept in a vacuum state in order to remove the remaining bubbles, the insulating oil passed through the water removal unit (20) and the trap unit (30).
The method according to claim 1,
The insulating oil discharge unit 50,
Insulating oil discharge port 51, the insulating oil discharge port 51 is connected to the pipe and a vacuum is formed in the discharge port 51 is characterized in that it is composed of a second vacuum pump 52 that opens and closes so that the insulating oil is discharged Insulating oil refining system.
delete delete delete delete

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