KR200466174Y1 - Packing for transformer - Google Patents

Abstract

The present invention relates to a packing for a transformer, and specifically, by adjusting the compression force by inserting a compression suppression means into the packing to stop the compression when the permanent compression shrinkage of the packing is 27% to 28%, It is possible to prevent leakage of insulating oil due to insufficient pressure adhesion, aging of rubber due to contact with external ozone, breaking of packing or compression shaft due to excessive pressure adhesion, and to contact surface with secondary bushing or insulator By forming one or more protrusions on the outside of the contact surface, the secondary bushing and the insulator flow as well as relates to a packing for a transformer that can implement a more robust sealing effect.

Description

Packing for transformer {Packing for transformer}

The present invention relates to a packing for a transformer, and more particularly, by adjusting the compression force by inserting a compression inhibiting means into the packing to stop the compression when the permanent compression rate of the packing is 27% to 28% , Oil leakage due to insufficient pressure adhesion, aging of rubber due to contact with external ozone, breaking of packing or compression shaft due to excessive pressure adhesion, etc. can be prevented, as well as contact surface or insulator with secondary bushing By forming one or more protrusions on the outside of the contact surface, the secondary bushing and the insulator flow can be suppressed as well as the packing for the transformer that can implement a more robust sealing effect.

In general, the transformer is installed in a pole or the like in order to convert the high voltage from the substation into a low voltage for industrial or household use, as shown in FIG. 1, the low pressure side terminal 54 is connected to the periphery of the enclosure 52, Insulator 55 is coupled to an upper surface of 52.

As shown in FIG. 2, the low pressure side terminal 54 is connected to the secondary side 58 of the transformer by a conductive rod 56, and a secondary bushing 60 is installed around the conductive rod 56. To insulate the high current flowing through the conductive rod 56 from being applied to the transformer enclosure 52.

To this end, the secondary bushing 60 is inserted into the through hole 62 provided at the periphery of the transformer enclosure 52 and fixed by the nut 64. In this case, the insulating oil and the like inside the transformer are passed through the through hole 62. In order to prevent the outflow through, a rubber packing (P) is inserted between the transformer enclosure (52) and the secondary bushing (60).

The packing (P) is formed mostly in a ring shape, it is installed to seal the pressure between the transformer enclosure 52 and the secondary bushing (60).

In addition, the packing P is inserted between the upper surface of the enclosure 52 and the insulator 55, as shown in FIG. 3, to prevent the insulating oil and the like inside the transformer from leaking out.

On the other hand, the insulator packing is generally known to implement the most efficient sealing effect when the permanent compression shrinkage is 27 ~ 28%. In other words, if the permanent compression rate is less than 27%, the sealing effect is insufficient and the insulating oil leaks or the aging of the rubber due to contact with external ozone occurs. If the pressure exceeds 28%, the insulator packing is pressurized more than necessary. In close contact with the insulator packing is broken or pressed to reduce the physical properties, such as resilience of the insulator packing, which can shorten the life of the product.

However, the conventional insulator packing as described above was not able to confirm the permanent compression shrinkage, and thus, leakage of insulating oil due to insufficient pressure adhesion, aging of rubber due to contact with external ozone, and rupture of packing due to excessive pressure adhesion. Deterioration of the physical properties caused by the pressure shaft, there was a problem such as shortening the life of the product.

In addition, the conventional packing as described above has a problem in that the contact surface with the secondary bushing or the contact surface with the insulator is formed flat, so that the secondary bushing or insulator coupled to the enclosure easily flows.

The present invention is to solve the above-mentioned conventional problems, when the compression rate of the permanent compression of the transformer packing is 27% to 28%, by inserting a compression suppression means to stop the compression inside the insulator packing It is an object of the present invention to provide a packing for a transformer that can prevent the leakage of insulating oil due to insufficient pressure adhesion, aging of rubber due to contact with external ozone, breakage of the packing due to excessive pressure adhesion, or a phenomenon of compression shaft. .

In addition, by forming one or more protrusions outside the contact surface with the secondary bushing or the contact surface with the insulator, the secondary bushing and the insulator can be prevented from flowing and provide a packing for the transformer that can realize a more robust sealing effect. Is another task.

In addition, by making the packing with hydrogenated nitrile rubber (HNBR), another object is to provide a transformer packing that can prevent aging due to oxygen, ozone, insulating oil, etc., thereby extending the life of the packing.

The present invention is a transformer packing, the transformer packing in which the compression suppression means for suppressing the compression of the packing is inserted therein as a means for solving the problem.

On the other hand, the compression inhibiting means, when the permanent compression shrinkage of the packing is 27% to 28%, it is preferable to have a thickness that the compression can be suppressed.

In addition, the compression inhibiting means is made of a metal material, it is preferable to be made in a ring shape corresponding to the packing.

In addition, the packing is preferably formed with one or more protrusions on the outer surface.

In addition, the packing is preferably made of hydrogenated nitrile rubber (HNBR).

According to the present invention, when the permanent compression shrinkage of the transformer packing is 27% to 28%, by inserting a compression inhibiting means to stop the compression inside the packing to adjust the compression force, insulating oil due to insufficient pressure There is an advantage that can prevent the outflow, aging of the rubber due to contact with external ozone and breaking of the packing or compression shaft due to excessive pressure contact.

In addition, by forming one or more protrusions outside the contact surface with the secondary bushing or the contact surface with the insulator, the flow of the secondary bushing and the insulator can be suppressed as well as a more robust sealing effect can be realized.

In addition, since the packing is made of hydrogenated nitrile rubber (HNBR), there is an advantage that can prevent aging by oxygen, ozone, insulating oil and the like, thereby extending the life of the packing.

1 is a view showing a general transformer
2 is a cross-sectional view of the secondary bushing side of FIG.
3 is a detail of the insulator side of FIG.
4 is a perspective view of a packing according to an embodiment of the present invention
5 is a cross-sectional view taken along the line AA ′ of FIG. 4.

The objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and the effect of the preferred embodiment of the present invention.

4 is a perspective view of a packing according to an embodiment of the present invention, Figure 5 is a cross-sectional view taken along the line A-A 'of Figure 4, the subject innovation between the enclosure 52 and the secondary bushing 60, or 52 is characterized in that the compression inhibiting means 10 is inserted into the packing (P) that is inserted between the upper surface of the insulator (55).

As shown in FIG. 4, the compression suppression means 10 is inserted into the packing P. When the permanent compression rate of the packing P is 27% to 28%, the compression is suppressed. Has a thickness that can be.

That is, in the process of compressing the packing P by the combination of the secondary bushing 60 or the insulator 55, the compression suppression in which the secondary bushing 60 or the insulator 55 is inserted into the packing P is inserted. When the means 10 is reached, the compression process is stopped by the compression inhibiting means 10 having a predetermined hardness, and at this time, the permanent compression shrinkage of the packing P is 27% to 28%.

Therefore, the compression suppression means 10 is preferably made of a metal or synthetic resin material having a hardness that can suppress the compression, corresponding to the packing (P) to be easily inserted into the packing (P) It is manufactured in the form of a ring.

Thus, leakage of insulating oil due to insufficient pressurization of the packing P, aging of the rubber due to contact with external ozone, breakage of the packing P due to excessive pressurization or the phenomenon of the compression shaft can be prevented.

Meanwhile, as illustrated in FIGS. 4 and 5, one or more protrusions 11 are formed on the outer surface of the packing P. FIG.

The protrusion 11 may be formed on both sides of the packing (P), but considering the use efficiency and ease of manufacture, it is effective to be formed on the contact surface with the secondary bushing 60 or the contact surface with the insulator 55. The protrusion P is preferably made of the same material as the packing P.

Therefore, the flow of the secondary bushing 55 and the insulator 55 in the enclosure 55 is not only efficiently suppressed, but also achieves a tighter sealing effect.

On the other hand, the packing (P) applied to the present invention, it can be produced by applying a variety of synthetic rubber, such as viton, NBR, EPDM, in one embodiment applied a hydrogenated nitrile rubber (HNBR).

The hydrogenated nitrile rubber is prepared by subjecting nitrile butadiene rubber (NBR) to a selective and controlled hydrogenation reaction, and the degree of hydrogenation varies depending on the amount of catalyst and the reaction conditions. The hydrogenated product consists of a polymethylene backbone with a known amount of unsaturation (double bond) and a nitrile side chain (-C = N).

That is, the highly saturated polymethylene main chain has excellent heat resistance and ozone resistance, and the nitrile group has resistance to oil and fuel.

Therefore, the packing (P) of the present invention made of hydrogenated nitrile rubber is resistant to aging due to ozone and environmental aging, high temperature air and high temperature industrial lubricants (including lubricating oil including sulfur) and resistance to high temperature water, high temperature steam, and oxidizing gas. It is excellent, which makes it possible to extend the life of the packing.

In addition, the present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes within the scope not departing from the technical idea of the present invention is possible in the technical field to which the present invention belongs. It will be apparent to those of ordinary skill in the art.

52: enclosure 54: low-pressure side terminal
55: Insulator 56: Challenger
58: secondary side 60: secondary bushing
62: through hole 64: nut
P: Packing 10: Compression inhibiting means
11: turning

Claims (5)

In the packing for the transformer,
Compression suppression means for suppressing the compression of the packing is inserted therein,
The compression suppression means,
When the permanent compression rate of the packing is 27% to 28%, the packing for the transformer, characterized in that having a thickness that can be suppressed compression
delete The method of claim 1,
The compression suppression means,
Made of metal or synthetic resin material, characterized in that the packing for the transformer, characterized in that produced in the form of a ring corresponding to the packing
The method of claim 1,
The packing is
Packing for transformer, characterized in that one or more projections formed on the outer surface
The method of claim 1,
The packing is
Packing for transformer, characterized in that made of hydrogenated nitrile rubber (HNBR)

Images