KR101520480B1 - A transformer vacuum oil filter - Google Patents

Abstract

The present invention relates to a vacuous oil filter for a transformer, which comprises: an inhalation pump for inhaling an insulating oil; a plurality of filters for removing solid particles and microparticles existing in the insulating oil; a storage tank for storing the insulating oil; a water level measurement unit comprising a first water level measurement sensor, a second water level measurement sensor, a third water level measurement sensor, a fourth water level measurement sensor, and a fifth water level measurement sensor; an operation control unit for controlling RPM adjustment and stop operation of the inhalation pump; an electrical heater for heating the insulating oil; and a discharge pump for being discharged to the outside by inhaling the insulating oil. Regarding the vacuous oil filter for the transformer, the insulating oil is heated at the uniform temperature regardless of flow rate of the insulating rate which is circulated to the inside of the oil path. Therefore, insulating properties of the insulating oil can be effectively secured by easily removing gas and moisture contained in the insulating oil.

Description

A transformer vacuum oil filter for a transformer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vacuum oil filter for a transformer, and more particularly, to a vacuum oil filter for a transformer, which comprises a preheating means for variably providing a heat source according to a flow rate of an insulating oil flowing into an oil passage, The present invention relates to a vacuum oil filter for a transformer that can easily remove gas and moisture contained in an insulating oil and efficiently ensure insulating property of the insulating oil, because the insulating oil is preheated to a uniform temperature irrespective of the flow rate of the oil.

In general, a vacuum oil filter for a transformer is a device for removing solid particles, wheat particles, gas, moisture, etc. remaining in the dielectric oil to enhance the insulating property of the dielectric oil filled with the transformer.

The structure of the conventional vacuum oil filter as described above includes a suction pump for sucking the insulating oil easily from the store where the insulating oil is stored and a solids particle disposed on the flow passage through which the insulating oil sucked through the suction pump flows, A plurality of filtration filters for removing the fine particles to improve the insulation characteristics of the insulating oil, a reservoir for containing the insulated oil sucked through the suction pump, a full-capacity measuring sensor for measuring the full- An operation controller for controlling the on / off state of the suction pump by a gauging level measuring sensor for measuring the level of the insulating oil stored in the storage, an electric heater formed on the flow passage for heating the insulating oil flowing through the flow passage, And a discharge pump for sucking the insulating oil stored in the storage tank and discharging the oil to the outside, It is.

In the operation of the conventional vacuum oil filter, the suction of the insulating oil is started by the operation of the suction pump, the insulated oil to be sucked is stored in the reservoir, the stored insulating oil is sucked by the discharge pump, At this time, the insulating oil flowing through the pump passes through the plurality of filtering filters to remove solid particles, wheat particles and the like remaining in the insulating oil, thereby improving the insulating property of the insulating oil.

Here, the suction pump of the conventional vacuum oil filter stops operation of the suction pump when the level of the insulating oil is sensed by the level sensor, and operates the suction pump when the level of the insulating oil is sensed in the level sensor. In addition, not only the driving force is reduced due to a load generated in the suction pump after the suction pump is stopped, but repeated operation of the suction pump causes a problem in that the lifetime of the device is reduced.

In order to solve the above-described problems, the applicant of the present invention has proposed a suction pump (1) for sucking the insulating oil from a reservoir in which insulating oil is stored, as shown in FIG. 1, and an insulating oil A plurality of filtration filters 3 disposed on the flow path 2 to remove solid particles and fine particles remaining in the dielectric oil so as to improve the insulation characteristics of the dielectric oil, A first level measuring sensor 5a for measuring the level of the insulating oil stored in the storage 4 and a second level measuring sensor 5b for measuring the level of the insulating oil stored in the storage tank 4, A second level sensor 5b for measuring the level of the insulating oil stored in the storage tank 4 and a second level sensor 5b for measuring the level of the insulating oil stored in the storage tank 4, 3 level sensor 5c, a third level A fourth level sensor 5d located below the measuring sensor 5c for measuring the level of the insulating oil stored in the storage tank 4 and a fourth level sensor 5d located below the fourth level sensor 5d, And a fifth level sensor 5e for measuring the level of the insulating oil stored in the storage tank 4 and a fifth level sensor 5e for measuring the level of the insulating oil stored in the storage tank 4, An operation control unit 6 for controlling the RPM control and operation stop of the suction pump 1 through the level of the insulating oil and an electric heater 6 for heating the insulating oil flowing on the oil path 2, A vacuum oil filter for a transformer (Patent Registration No. 10-1217871) which comprises a vacuum pump 7 and a discharge pump 8 for sucking and discharging the insulating oil stored in the storage 4, .

That is, when the level of the insulating oil stored in the reservoir 4 is sensed by the fourth level sensor 5d, the suction pump 1 is operated at a high RPM and the amount of the insulating oil sucked by the suction pump 1 Lt; / RTI >

When the level of the insulating oil stored in the reservoir 4 is sensed by the third level sensor 5c, the suction pump 1 is operated at a medium RPM so that the amount of the insulating oil sucked by the suction pump 1 is medium Lt; / RTI &

When the level of the insulating oil stored in the storage tank 4 is sensed by the second level sensor 5b, the suction pump 1 is operated at a low RPM to minimize the amount of the insulating oil sucked by the suction pump 1 and,

When the level of the insulating oil stored in the storage 4 is sensed by the level sensors 5a and 5e, the operation of the suction pump 1 is stopped.

Thus, the above-mentioned "Vacuum Oil Filter for Transformers (Patent Registration No. 10-1217871)" includes a plurality of level measuring sensors 5a, 5b, 5c, 5d and 5e for measuring the level of the reservoir 4 The operation control unit 6 controls the RPM of the suction pump 1 based on the information of the suction pump 1 to control the amount of the insulating oil flowing into the storage 4 appropriately to induce the continuous operation of the suction pump 1, The problem of the occurrence of a high load and the lifetime of the apparatus is solved due to the continuous re-operation of the suction pump.

However, the electric heater 7 of the vacuum oil filter for a transformer (patent registration number: 10-1217871) is connected to the oil passage 2 through the control of the suction pump 1 of the operation control part 6, The temperature of the insulating oil is heated too high when the flow rate is low and the temperature of the insulating oil is heated too low when the flow rate is high so that the gas and moisture contained in the insulating oil are smoothly removed There was no problem.

In addition, the above-mentioned "Vacuum Oil Filter for Transformer (Patent Registration No. 10-1217871)" is a device operated by an electric power source and requires a large amount of operating power (150kw) Since it is not easy to move along with the oil filter and the conventional large-capacity power generation device, there is a problem that the transfer of the device is very inconvenient.

Furthermore, since the above-mentioned "Vacuum Oil Filter for Transformer (Patent Registration No. 10-1217871)" and a large amount of cables for connecting the large-capacity power generation device have to be transported together, there is a problem that transportation is further inconvenient.

On the other hand, the above-mentioned "Vacuum Oil Filter for Transformer (Patent Registration No. 10-1217871)" is consumed in the electric heater 7, in which most (80 to 90% The heat generation of the electric heater 7 is not easily performed, and the insulating oil is not heated properly, thereby losing the function of the device.

Korea Patent Registration No: 10-1217871 (Name: Vacuum Oil Filter for Transformer)

The object of the present invention is to provide a preheating means for variably providing a heat source according to the flow rate of the insulating oil flowing into the flow path on the flow path through which the insulating fluid flows, The present invention provides a vacuum oil filter for a transformer that can easily remove gas and moisture contained in the insulating oil and efficiently ensure insulation of the insulating oil because the insulating oil is preheated to a uniform temperature irrespective of the flow rate of the insulating oil flowing into the insulating oil.

Further, in the case where it is difficult to smoothly operate the electric heater because it is difficult to supply large-capacity operating power at the site, preheating (heating) of the insulating oil can be performed simply through the preheating means that operates the fuel. The power generation device and the cable are not required to be transported together to the site, thereby ensuring the transfer of the device and the ease of use, and a vacuum oil filter for a transformer.

According to an aspect of the present invention, there is provided a vacuum oil filter for a transformer, the vacuum oil filter comprising: a suction pump for sucking the insulating oil from a reservoir storing the insulating oil; A plurality of filtration filters for removing the solid particles and fine particles remaining in the insulating oil to improve the insulating characteristics of the insulating oil; a storage tank for storing the insulating oil sucked through the suction pump; A second level sensor located below the first level sensor and measuring a level of the insulating oil stored in the storage tank; and a second level sensor located below the second level sensor, A third level sensor for measuring the level of the insulating oil stored in the third level sensor, A fourth level sensor for measuring the level of the insulating oil stored in the reservoir and a fifth level sensor for measuring the level of the insulated oil stored in the reservoir below the fourth level sensor, And an operation control unit for controlling the RPM control and the operation stop of the suction pump through the level of the insulating oil stored in the storage tank sensed by the water level measuring unit and heating the insulating oil flowing on the oil channel, An electric vacuum cleaner for a transformer, comprising: an electric heater; and a discharge pump for sucking and discharging the insulating oil stored in the reservoir,

And a preheating unit installed on the flow path to preheat the insulating oil flowing through the electric heater and providing a heat source suitable for the flow rate of the insulating oil flowing into the flow path,
Wherein the preheating means comprises a first combustion section including a combustion chamber for burning fuel based on fuel and providing a heat source with insulating oil circulating through the flow passage, a combustion chamber for burning fuel based on fuel and providing a heat source with insulating oil flowing through the flow passage And a third combustion section including a combustion chamber for providing a heat source with the insulating oil combusted based on the fuel and flowing into the flow passage,
When the level of the reservoir is positioned in the second level sensor and a small amount of the insulating oil flows through the flow path through the suction pump, the first combustion part is operated to preheat the insulating oil flowing through the flow path,
When the level of the reservoir is located in the third level sensor and a greater amount of the insulating oil flows into the flow path than when the level of the reservoir is placed in the second level sensor via the suction pump, And the second combustion section is operated to preheat the insulating oil flowing through the oil passage,
When the level of the reservoir is located in the fourth level sensor and a greater amount of the insulating oil is circulated in the flow path than when the level of the reservoir is placed in the third level sensor via the suction pump, And the third combustion unit is operated together with the second combustion unit to preheat the insulating oil flowing through the oil passage,
And the operation of the combustion unit is stopped when the water level of the storage tank is located in the first level sensor or the fifth water level sensor and the operation of the suction pump is stopped,
And the combustion section of the preheating means is controlled through the control of the operation control section.

delete

delete

delete

delete

delete

delete

delete

As described above, according to the vacuum oil filter for a transformer according to the present invention, the preheating means for variably providing a heat source according to the flow rate of the insulating oil flowing into the flow passage is provided on the flow passage through which the insulating oil flows, Since the insulating oil is preheated to a uniform temperature irrespective of the flow rate of the insulating oil, the gas and moisture contained in the insulating oil can be easily removed and the insulating property of the insulating oil can be ensured efficiently.

Further, in the case where it is difficult to smoothly operate the electric heater because it is difficult to supply large-capacity operating power at the site, preheating (heating) of the insulating oil can be performed simply through the preheating means that operates the fuel. It is not necessary to transfer the power generation device and the cable to the site together, and thus it is possible to secure the conveyance and usability of the device.

1 is a schematic drawing showing a vacuum oil filter machine for a transformer pre-registered by the present applicant
2 is a schematic drawing of a vacuum oil filter for a transformer according to an embodiment of the present invention;
Fig. 3 is a view for explaining the control of the preheating means through the operation control portion of the vacuum oil filter for transformer shown in Fig. 2

A vacuum oil filter for a transformer according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Detailed descriptions of well-known functions and constructions that may be unnecessarily obscured by the gist of the present invention will be omitted.

2 and 3 illustrate a vacuum oil filter for a transformer according to an embodiment of the present invention. FIG. 2 is a schematic diagram of a vacuum oil filter for a transformer according to an embodiment of the present invention. Respectively, to illustrate the control of the preheating means through the operation control portion of the illustrated vacuum oil filter for a transformer.

As shown in the drawing, a vacuum oil filter 100 for a transformer according to an embodiment of the present invention includes a suction pump 1 for sucking an insulating oil easily from a store in which insulating oil is stored, A plurality of filtration filters 3 disposed on the flow path 2 through which the insulating oil sucked through the flow path 2 flows to remove solid particles and fine particles remaining in the dielectric oil to improve the insulating characteristics of the insulating oil, A first level sensor 5a for measuring the level of the insulated oil stored in the storage 4 and a second level sensor 5b for measuring the level of the insulated oil stored in the storage 4, A second level measuring sensor 5b for measuring the level of the insulating oil stored in the storage 4 and a second level measuring sensor 5b positioned below the second level measuring sensor 5b for measuring the level of the insulating oil stored in the storage 4, A third water level sensor 5c for measuring the water level, A fourth water level measuring sensor 5d located below the third water level measuring sensor 5c for measuring the level of the insulating oil stored in the storage 4 and a fourth water level measuring sensor 5d located below the fourth water level measuring sensor 5d, And a fifth level sensor 5e for measuring the level of the insulating oil stored in the reservoir 4 and a fifth level sensor 5e for measuring the level of the insulating oil stored in the reservoir 4 An operation control unit 6 for controlling the RPM control and the operation stop of the suction pump 1 through the level of the stored oil of the oil pump 2, And a discharge pump (8) for sucking the insulating oil stored in the reservoir (4) and discharging the oil to the outside, the vacuum oil filter for a transformer comprising:

As shown in FIG. 2, by preheating the insulating oil which is installed on the oil passage 2 and circulated to the electric heater 7, the preheating for providing a heat source suitable for the amount of the insulating oil flowing into the oil passage 2 And means (10)

The preheating means 10 includes a first combustion portion 11 including a combustion chamber 11a for burning fuel based on fuel and providing a heat source with insulating oil flowing into the flow path 2, A second combustion section 12 including a combustion chamber 12a for providing a heat source with an insulating oil flowing into the flow path 2 and a combustion chamber 12 for providing a heat source with insulating oil, And a third combustion section 13 including a first combustion section 13a.

That is, as shown in FIG. 3A, the vacuum oil filter 100 for a transformer according to the present invention is operated so that the water level of the reservoir 4 is located in the second level sensor 5b, The operation control unit 6 operates only the first combustion unit 11 of the preheating unit 10 to operate the flow path 1 to flow into the flow path 1, So that the insulating oil is preheated to a suitable temperature (approximately 50 to 66 DEG C)

3B, when the water level of the reservoir 4 is gradually lowered and is located in the third water level sensor 5c, the suction pump 1 operates at a medium RPM so that the water level of the reservoir 4 becomes lower When a larger amount of insulating oil flows into the flow path 2 than when the second level sensor 5b is located, the operation control unit 6 controls the first combustion unit 11 and the second combustion unit 10 of the preheater 10, The second combustion unit 12 is operated to preheat the insulating oil flowing into the oil passage 2 to an appropriate temperature,

3C, when the water level of the storage tank 4 is gradually lowered and is located at the fourth water level sensor 5d so that the suction pump 1 operates at a high RPM, When a greater amount of insulating oil flows into the flow path 2 than when the third level sensor 5c is positioned, the operation control unit 6 controls the first combustion unit 11 and the second combustion unit 10 of the preheater 10, The third combustion section 13 is operated together with the second combustion section 12 so that the insulating oil flowing into the oil passage 2 is preheated to a suitable temperature,

The level of the reservoir 4 is located in the first level sensor 5a or the fifth level sensor 5e due to malfunction or malfunction of the apparatus, The operations of the combustion units 11, 12, and 13 are stopped to prevent a safety accident of the apparatus in the operation control unit.

Here, a conventional hot water boiler for operating oil and gas as fuel for the combustion units 11, 12, and 13 of the preheating unit 10 may be used, but it is not limited thereto.

That is, the vacuum oil filter 100 for a transformer according to the present invention having the above-described components can vary the heat source according to the flow rate of the insulating oil flowing into the oil passage 2 on the oil passage 10 through which the oil flows, Since the insulating oil is preheated at a uniform temperature (approximately 50 to 60 DEG C) regardless of the flow rate of the insulating oil flowing into the oil passage 2 by providing the preheating means 10 for providing the preheating means 10, So that the insulation can be efficiently removed and the insulating property of the insulating oil can be improved.

Further, in the case where it is difficult to smoothly operate the electric heater 7 because it is difficult to receive a large amount of operating power from the site, preheating (heating) of the insulating oil can be performed simply through the preheating means 10, It is not necessary to transfer the large-capacity power generation device and the cable to the site together to receive the power, so that it is possible to secure the transfer and usability of the device.

The vacuum oil filter 100 for a transformer according to the embodiment of the present invention having the above-described configuration operates as follows.

2, the operation of the suction pump 1 of the vacuum oil filter 100 for a transformer of the present invention is started and the insulating oil flows from the outside (usually a tanker or a storage tank) to the flow path 2, (4), the stored insulating oil is sucked by the discharge pump (8) and discharged to the outside (such as a transformer)

The level of the reservoir 4 is sensed by the second level sensor 5b of the level measuring unit 5 so that the suction pump 1 operates at a low RPM to generate a small amount of insulating oil The operation control section 6 operates only the first combustion section 11 of the preheating means 10 so that the insulating oil circulated to the oil passage 1 is heated to a suitable temperature Deg.] C).

3B, the water level of the reservoir 4 is gradually lowered and is sensed by the third water level sensor 5c so that the suction pump 1 operates at a medium RPM so that the water level of the reservoir 4 is lowered When a larger amount of insulating oil flows into the flow path 2 than when the second level sensor 5b is located, the operation control unit 6 controls the first combustion unit 11 and the second combustion unit 10 of the preheater 10, The second combustion unit 12 is operated to heat the insulating oil flowing into the oil passage 2 to an appropriate temperature.

3C, the water level of the storage tank 4 is gradually lowered and is sensed by the fourth water level sensor 5d so that the suction pump 1 operates at a high RPM, The first control unit 6 controls the first combustion unit 11 of the preheater 10 so that the amount of the insulating oil flowing into the flow path 2 is larger than that of the first water level sensor 5c, The third combustion unit 13 is operated together with the second combustion unit 12 so that the insulating oil flowing into the oil passage 2 is preheated to a suitable temperature.

Therefore, according to the vacuum oil filter 100 for a transformer according to the present invention, the preheating means (not shown) for variably providing a heat source according to the flow rate of the insulating oil flowing into the flow path 2 on the flow path 2, 10, the insulating oil is preheated to a uniform temperature irrespective of the flow rate of the insulating oil flowing into the oil passage 2, so that the gas and moisture contained in the insulating oil can be easily removed and the insulating property of the insulating oil can be ensured efficiently will be.

3, due to a malfunction or failure of the apparatus, the water level of the reservoir 4 is located in the first level sensor 5a or the fifth level sensor 5e, 1) is stopped, the operation control unit 6 stops the operation of the preheating unit 10 to prevent a safety accident of the device.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

1. Suction pump 2. Euro
3. Filtration filter 4. Storage
5. Level measurement part 5a. The first level sensor
5b. Second level sensor 5c. Third level sensor
5d. Fourth level measuring sensor 5e. Fifth water level sensor
6. Operation control 7. Electric heater
8. Discharge pump
10. Preheating means 11. First combustion section
11a, 12a, 13a. Combustion chamber 12. Second combustion section
13. Third combustion section
100. Vacuum oil filter for transformer

Claims (2)

A suction pump (1) for sucking the insulating oil from the storage where the insulating oil is stored,
A plurality of filtration filters 3 disposed on the flow path 2 through which the insulating oil sucked through the suction pump 1 flows and removing solids particles and fine particles remaining in the insulating oil to improve the insulating characteristics of the insulating oil; ,
A reservoir 4 for storing the insulated oil sucked through the suction pump 1,
A first level measuring sensor 5a for measuring the level of the insulating oil stored in the storage 4 and a water level sensor 5b located below the first level measuring sensor 5a for measuring the level of the insulating oil stored in the storage 4 A third water level sensor 5c located below the second water level sensor 5b for measuring the level of the insulating oil stored in the storage 4, A fourth water level sensor 5d located below the third water level sensor 5c for measuring the level of the insulating oil stored in the storage 4 and a fourth water level sensor 5d located below the fourth water level sensor 5d, And a fifth level sensor 5e for measuring the level of the insulating oil stored in the storage 4,
An operation control unit 6 for controlling the RPM control and the operation stop of the suction pump 1 through the level of the insulating oil stored in the storage 4 sensed by the water level measuring unit 5,
An electric heater (7) formed on the oil passage (2) for heating the insulating oil flowing into the oil passage (2)
And a discharge pump (8) for sucking the insulating oil stored in the reservoir (4) and discharging it to the outside, the vacuum oil filter for a transformer comprising:
And preheating means 10 provided on the flow path 2 to preheat the insulating oil flowing into the electric heater 7 and providing a heat source to the flow rate of the insulating oil flowing into the flow path 2 Respectively,
The preheating means 10 includes a first combustion portion 11 including a combustion chamber 11a for burning fuel based on fuel and providing a heat source with insulating oil flowing into the flow path 2, A second combustion section 12 including a combustion chamber 12a for providing a heat source with an insulating oil flowing into the flow path 2 and a combustion chamber 12 for providing a heat source with insulating oil, And a third combustion section 13 including a first combustion section 13a,
When the water level of the reservoir 4 is positioned in the second level sensor 5b and the insulating oil flows through the flow path through the suction pump 1, the first combustion part 11 is operated, 2) is preheated,
When the level of the reservoir 4 is located in the third level sensor 5c and the level of the reservoir 4 is placed in the second level sensor 5b via the suction pump 1 The second combustion part 12 is operated together with the first combustion part 11 so that the insulating oil flowing into the flow path 2 is preheated,
When the level of the reservoir 4 is located in the fourth level sensor 5d and the level of the reservoir 4 is placed in the third level sensor 5c via the suction pump 1 The third combustion part 13 is operated together with the first combustion part 11 and the second combustion part 12 to discharge the oil to the flow path 2, So that the insulating oil is preheated,
When the level of the reservoir 4 is located in the first level sensor 5a or the fifth level sensor 5e and the operation of the suction pump 1 is stopped, So as to stop the operation of the motor,
Wherein the combustion units (11, 12, 13) of the preheating means (10) are controlled through the control of the operation control unit (6). delete

Images