JP2022035652A - Liquid silicone transformer and manufacturing method of the same - Google Patents

Abstract

To avoid the dissolution of nitrogen gas into liquid silicone to increase product reliability while avoiding increases in cost and size.SOLUTION: In a liquid silicone transformer 1, a transformer body 5 is immersed in liquid silicone 6 in a tank 2, and nitrogen gas 17 is sealed in the tank 2. Between the liquid silicone 6 and the nitrogen gas 17, an oil layer 14 is provided which is made of oil lower in specific gravity than the liquid silicone 6.SELECTED DRAWING: Figure 1

Description

Embodiments of the present invention relate to a liquid silicone transformer and a method for manufacturing the same.

Conventionally, a liquid silicone transformer in which a transformer main body is immersed in liquid silicone in a tank and nitrogen gas is sealed in the tank has been provided (see, for example, Patent Documents 1 and 2).

Japanese Unexamined Patent Publication No. 2006-261289 Japanese Unexamined Patent Publication No. 2008-182161

Liquid silicone has a high flash point, forms a silica film at the time of ignition, and is characterized by having autolytic properties in which oxygen supply is cut off for digestion. Therefore, as a merit of the liquid silicone transformer, the heat resistance class of the transformer can be improved as compared with the conventional mineral oil. On the other hand, as a demerit of the liquid silicone transformer, there is a problem that nitrogen gas is easily dissolved in the liquid silicone, and if the nitrogen gas dissolved in the liquid silicone is vaporized when the temperature rises sharply, the insulation performance is deteriorated. Conventionally, as a countermeasure against this, the oil deterioration prevention method having a complicated configuration has been changed to a pressureless sealing type, or the insulation distance has been increased to reduce the electric field.

However, when the oil deterioration prevention method is a pressureless sealing type, a conservator is provided in the upper part of the tank, so that there is a problem that the cost increases due to an increase in the number of parts. In addition, it becomes difficult to fit the nitrogen-sealed transformer within the transport limit range, the total equipment transport capacity becomes low, and if it does not fit within the transport limit range, on-site assembly is required, which further increases costs. There is a problem. When increasing the insulation distance to reduce the electric field, if the insulation distance inside the coil, the insulation distance between the coils, and the insulation distance between the coil and the tank are increased, the transformer will become larger and the materials used will increase. There is a problem that the cost increases and the total equipment transport capacity decreases due to the increase in mass.

Therefore, the present invention provides a liquid silicone transformer capable of avoiding dissolution of nitrogen gas in liquid silicone and improving the reliability of the product while avoiding an increase in cost and an increase in size, and a method for manufacturing the same.

The liquid silicone transformer according to the embodiment is a liquid silicone transformer in which the transformer body is immersed in the liquid silicone in the tank and the nitrogen gas is sealed in the tank, and the liquid silicone and the nitrogen gas are sealed. An oil layer made of oil having a specific gravity smaller than that of the liquid silicone is provided between the two.

The method for manufacturing a liquid silicone transformer according to an embodiment is a method for manufacturing a liquid silicone transformer in which a transformer body is immersed in the liquid silicone in the tank and nitrogen gas is sealed in the tank. After injecting the liquid silicone into the tank, oil having a specific gravity lower than that of the liquid silicone is injected into the tank from a position higher than the liquid level of the liquid silicone, and the oil is injected between the liquid silicone and the nitrogen gas. An oil layer made of oil is provided.

Longitudinal side view of the liquid silicone transformer according to one embodiment Perspective view of insulation The figure which shows the relationship between the liquid level of liquid silicone and an insulator The figure which shows the relationship between the liquid level of liquid silicone and an insulator

One embodiment will be described with reference to the drawings. As shown in FIG. 1, in the liquid silicone transformer 1, the metal tank 2 is a combination of a box member 3 having an opening 3a on the upper surface and a flat plate-shaped lid member 4, and the opening of the box member 3. The inside of 3a can be sealed by being closed by the lid member 4. The transformer main body 5 is housed in the tank 2, and the liquid silicone 6 as an insulating cooling medium is injected. That is, in the tank 2, the transformer main body 5 is immersed in the liquid silicone 6.

The transformer main body 5 is configured by winding a coil 7 around an iron core 8. The coil 7 is composed of a high-voltage side coil 7a for inputting high-voltage power and a low-voltage side coil 7b for outputting low-voltage power when applied to a power system, for example, and the high-voltage side coil 7a is on the outer peripheral side of the low-voltage side coil 7b. It is provided in. The entire surface of each of the high-voltage side coil 7a and the low-voltage side coil 7b is covered with an insulating member such as resin to be insulated. The high voltage side may be referred to as a primary side, and the low voltage side may be referred to as a secondary side. The transformer main body 5 is housed in the tank 2 in a form of being placed on an insulating support (not shown).

The liquid silicone 6 is a polymer of an organic silicon compound, and may be referred to as a silicone liquid or a silicone oil. The specific gravity of the liquid silicone 6 is about 0.96 [g / cm ³ ]. The liquid silicone 6 has a high flash point, forms a silica film at the time of ignition, and has autolytic property of cutting off oxygen supply and digesting. The first injection valve 9 is connected to the lower part of the outside of the tank 2 via the first pipe 10, and the liquid silicone 6 is supplied from the outside of the tank 2 via the first pipe 10 in the open state of the first injection valve 9. It is injected into the tank 2.

A radiator 11 is connected to the outside of the tank 2 via an upper pipe 12 and a lower pipe 13, and the inside of the tank 2 and the inside of the radiator 11 are communicated with each other by the upper pipe 12 and the lower pipe 13. The liquid level of the liquid silicone 6 is higher than that of the upper pipe 12. That is, in the process of manufacturing the liquid silicone transformer 1, the liquid silicone 6 is injected from the outside of the tank 2 into the tank 2 through the first injection valve 9 until the liquid level thereof becomes higher than the upper pipe 12. To.

In the tank 2, an ester oil having a specific gravity smaller than that of the liquid silicone 6 is injected above the liquid silicone 6, and an oil layer 14 made of the ester oil is provided. The ester oil means a polymer having an ester bond. The specific gravity of the ester oil is smaller than the specific gravity of the liquid silicone 6 described above, and is about 0.915 to 0.925 [g / cm ³ ]. Further, the ester oil has a flash point equivalent to that of the liquid silicone 6. A second injection valve 15 is connected to the outer upper part of the tank 2 via a second pipe 16, and the ester oil is the second injection valve 15 after the liquid silicone 6 is injected into the tank 2 to a predetermined height. In the open state, the oil is injected into the tank 2 from the outside of the tank 2 via the second pipe 16. At this time, since the specific gravity of the ester oil is smaller than the specific gravity of the liquid silicone 6, the liquid silicone 6 injected earlier and the ester oil injected later are separated without being mixed.

Nitrogen gas 17 is sealed on the upper side of the liquid silicone 6 in the tank 2. That is, in the tank 2, the oil layer 14 made of ester oil is provided on the upper side of the liquid silicone 6, so that the liquid silicone 6 and the nitrogen gas 17 are separated by the oil layer 14 in a non-contact state. In this way, the liquid silicone 6 and the nitrogen gas 17 are separated by the oil layer 14 in a non-contact state, and the liquid silicone 6 and the nitrogen gas 17 do not come into contact with each other, so that the nitrogen gas 17 is not dissolved in the liquid silicone 6. I'm avoiding it.

In the oil layer 14, a planar insulator 18 is provided in the oil layer 14 in the liquid surface direction of the liquid silicone 6 for the purpose of more reliably avoiding the dissolution of the nitrogen gas 17 in the liquid silicone 6. The insulator 18 is made of a material having high heat resistance, and its end portion is sandwiched and fixed by the upper fixing portion 19 and the lower fixing portion 20 fixed to the inner wall portion of the tank 2. It is provided so that it cannot move in the vertical direction. As shown in FIG. 2, the insulator 18 is formed with a plurality of holes 21 penetrating in the vertical direction.

During normal operation of the transformer main body 5, the temperature of the liquid silicone 6 around the transformer main body 5 rises due to heat generation of the transformer main body 5. The liquid silicone 6 whose temperature has risen expands in the tank 2, and the portion having a relatively high temperature moves upward in the tank 2 and flows from the tank 2 through the upper pipe 12 into the radiator 11. The liquid silicone 6 that has flowed into the radiator 11 is cooled and the temperature drops. The liquid silicone 6 whose temperature has dropped shrinks in the radiator 11, and the portion having a relatively low temperature moves downward in the radiator 11 from the inside of the radiator 11 through the lower pipe 13 into the tank 2. Flow to.

By the natural convection of the liquid silicone 6 between the inside of the tank 2 and the inside of the radiator 11, the Joule heat generated from the transformer main body 5 is taken away, and the transformer main body 5 is cooled. Further, as the liquid silicone 6 expands or contracts, the liquid level of the liquid silicone 6 fluctuates in the vertical direction, and the oil layer 14 also moves in the vertical direction following the fluctuation of the liquid level of the liquid silicone 6 in the vertical direction. Move to. In this case, as shown in FIGS. 3 and 4, the insulator 18 is provided at a position where the liquid level of the liquid silicone 6 stays in the oil layer 14 at either the lowest position or the highest position.

Further, since the insulating material 18 is formed with the plurality of holes 21, the ester oil can move through the plurality of holes 21. That is, if the insulating material 18 is not formed with a plurality of holes 21, the liquid silicone 6 may be completely sealed, and the insulating material 18 may be destroyed by the pressure when the liquid silicone 6 expands. However, since a plurality of holes 21 are formed in the insulator 18, the pressure when the liquid silicone 6 expands is released, and the destruction of the insulator 18 is avoided in advance.

The above is an example of a configuration using ester oil, but if the heat resistance class is equivalent to that of mineral oil, a configuration using mineral oil instead of ester oil may be used. Further, the configuration may be such that the insulator 18 is provided as needed, or the insulator 18 may be omitted. That is, when the risk of the nitrogen gas 17 being dissolved in the liquid silicone 6 is relatively small and the risk of the nitrogen gas 17 being dissolved in the liquid silicone 6 can be sufficiently avoided only by the oil layer 14, the insulator 18 is used. May be omitted. Further, in the configuration in which the insulator 18 is provided, if the insulator 18 has sufficient resistance to the pressure when the liquid silicone 6 expands, the configuration in which the holes 21 are not formed may be used.

According to the embodiment described above, the following effects can be obtained.
In the liquid silicone transformer 1, an oil layer 14 made of ester oil having a specific gravity smaller than that of the liquid silicone 6 is provided between the liquid silicone 6 and the nitrogen gas 17. By separating the liquid silicone 6 and the nitrogen gas 17 in a non-contact state, it is possible to prevent the nitrogen gas 17 from being dissolved in the liquid silicone 6. In this way, nitrogen sealing is possible by a simple method in which an oil layer 14 made of ester oil is provided between the liquid silicone 6 and the nitrogen gas 17, and it is possible to manufacture the liquid in an electric field equivalent to that of the pressureless sealing type. Therefore, it is possible to avoid the dissolution of the nitrogen gas 17 in the liquid silicone 6 while avoiding the increase in cost and the increase in size. Furthermore, if the heat resistance class can be increased by the Electrical Standards Investigation Committee (JEC) in the future, it is possible to provide a transformer that is lighter and more compact than a mineral oil transformer.

Since the structure is such that the insulating material 18 having a planar shape is provided in the liquid surface direction of the liquid silicone 6, it is possible to more reliably avoid the dissolution of the nitrogen gas 17 in the liquid silicone 6. Since the hole 21 is formed in the insulator 18, it is possible to avoid the destruction of the insulator 18 due to the pressure when the liquid silicone 6 expands.

Since the insulator 18 is provided at a position where the insulator 18 stays in the oil tank 14 even if the liquid level of the liquid silicone 6 fluctuates in the vertical direction, the liquid level of the liquid silicone 6 moves up and down due to expansion and contraction of the liquid silicone 6. Even if it fluctuates in the direction, it is possible to more reliably avoid the dissolution of the nitrogen gas 17 in the liquid silicone 6.

Since the oil layer 14 is provided at a position higher than the height of the upper pipe 12, when the liquid silicone 6 naturally convection between the inside of the tank 2 and the inside of the radiator 11, the ester oil is contained in the liquid silicone 6. It doesn't mix.

Since the liquid silicone 6 is injected into the tank 2 from the outside of the tank 2 via the first injection valve 9, and the ester oil is injected into the tank 2 from the outside of the tank 2 via the second injection valve 15. After injecting the liquid silicone 6 into the tank 2, the ester oil can be injected into the tank 2 from a position higher than the liquid level of the liquid silicone 6.

The embodiments of the present invention are presented as an example and are not intended to limit the scope of the invention. The embodiments described above can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are also included in the scope of the invention described in the claims and the equivalent scope thereof.

In the drawing, 1 is a liquid silicone transformer, 2 is a tank, 5 is a transformer body, 6 is a liquid silicone, 9 is a first injection valve, 11 is a radiator, 12 is an upper pipe, 13 is a lower pipe, and 14 is. The oil layer, 14 is the second injection valve, 17 is nitrogen gas, 18 is an insulator, and 21 is a hole.

Claims (8)

In a liquid silicone transformer in which the transformer body is immersed in the liquid silicone in the tank and nitrogen gas is sealed in the tank.
A liquid silicone transformer in which an oil layer made of oil having a specific gravity lower than that of the liquid silicone is provided between the liquid silicone and the nitrogen gas. The liquid silicone transformer according to claim 1, wherein the oil layer contains ester oil. The liquid silicone transformer according to claim 1 or 2, wherein a planar insulating insulator is provided in the oil tank in the direction of the liquid surface of the liquid silicone. The liquid silicone transformer according to claim 3, wherein the insulator has holes. The liquid silicone transformer according to claim 3 or 4, wherein the insulator is provided at a position where the liquid silicone remains in the oil tank even if the liquid level of the liquid silicone fluctuates in the vertical direction. A radiator provided outside the tank and cooling the liquid silicone flowing from the tank,
A pipe that connects the inside of the tank and the inside of the radiator is provided.
The liquid silicone transformer according to any one of claims 1 to 5, wherein the oil layer is provided at a position higher than the height of the pipe. The liquid silicone is injected into the tank from outside the tank via the first injection valve.
The one according to any one of claims 1 to 6, wherein the oil is injected into the tank from outside the tank via the second injection valve provided at a position higher than the first injection valve. Liquid silicone transformer. In the method of manufacturing a liquid silicone transformer in which the transformer body is immersed in the liquid silicone in the tank and nitrogen gas is sealed in the tank.
After injecting the liquid silicone into the tank, oil having a specific gravity lower than that of the liquid silicone is injected into the tank from a position higher than the liquid level of the liquid silicone, and between the liquid silicone and the nitrogen gas. A method for manufacturing a liquid silicone transformer in which an oil layer made of the oil is provided.

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