KR20080001216U - structure of clamp for transformer - Google Patents

Abstract

The present invention relates to the structure of the clamp for vegetable oil transformer, and more particularly, is coupled to the upper end of the vertical bracket for fixing the core and the coil wound on the core built in the tank, so as to ensure a circulation path of the heated vegetable insulating oil At least one circulation hole is formed at the top.

Therefore, when the vegetable oil overheated by the coil has a high flash point but the viscosity is circulated by the convection phenomenon, the circulation path of the vegetable oil is secured, thereby inducing a rapid circulation to solve the problem of cooling of the vegetable oil. Provide the structure of

Description

Structure of clamp for vegetable oil transformer

1 is a cross-sectional view showing the structure of a conventional transformer.

Figure 2 is an exploded perspective view showing the structure of a conventional transformer and clamp.

Figure 3 is an exploded perspective view showing the structure of a clamp for a transformer according to the present invention.

4 is a view showing another embodiment of the clamp according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: clamp 102: core

104: fixing bracket 105: fixing bracket

106: fixing bolt 107: through hole

108: fixing nut 109: coil

110: circulation hole

In general, a transformer has a columnar transformer installed in a pole to distribute and supply a high voltage of a high voltage distributed from a substation through a high voltage cable to a home or building.

Conventional transformer is a device that changes the value of AC voltage or current by using electromagnetic induction action, that is, a transformer, which is connected to a power transformer connected to a transmission and distribution line. There are many types of coupling transformers used in electronic circuits.

Such a power transformer can change any voltage applied to an AC circuit as a transformer to a higher or lower voltage and the power does not change. The primary winding connected to the power supply and the secondary winding connecting to the load are wound on the same iron core, and the iron core has a thickness required by stacking magnetic materials such as silicon steel sheets, permalloy, and ferrite having a thickness of 0.35 mm. Is assembled to the core.

In addition, the actual structure of the transformer varies depending on the capacity and voltage, but the main parts are windings and iron cores, which are housed in a tank, and the tank is filled with a large amount of insulating oil.

The use of the insulating oil prevents this phenomenon because moisture or dust enters the insulation of the winding, thereby lowering the dielectric strength, and dissipates heat generated from the iron core or the winding by oil convection or radiation. For sake.

However, the conventional insulating oil is a mineral oil having a low flash point, so there is a risk of explosion, and as a result, a separate heat dissipation device must be provided, as well as biodegradation is not a cause of environmental problems.

The insulating oil suggested to solve this problem is silicone oil. However, the silicone oil has a higher flash point than mineral oil, so the risk of explosion is lower than that of mineral oil, but it is also harmful to humans and is not biodegradable. It is not suitable as an alternative insulating oil of mineral oil.

Therefore, as an alternative to solve the problems of the mineral oil and silicone oil is proposed vegetable oil (vegetable oil), the vegetable oil has a high flash point, there is no risk of explosion, it is not toxic and harmless to the human body, It has a high resolution of 75% biodegradation during the week, making it suitable as an alternative insulating oil for mineral and silicone oils.

However, the vegetable oil has a high flash point, but the viscosity is high, the circulation is not easy, there is a problem that the cooling performance is lowered.

On the other hand, the conventional transformer structure using the above-described vegetable oil as an insulating oil Referring to the structure of the transformer 10 with reference to Figures 1 and 2 Briefly, as shown in Figure 2 the lower portion of the core 2 tank It is fixed to the fixing stand 4 provided in the inner bottom surface of (3).

In addition, both sides of the core (2) as shown in Figure 2 fixed bracket (5) is standing on the fixing stand 4 to fix the core (2), coupled to the upper end of the fixing bracket (5) The fixing bolt 6 is penetrated by the through hole 7 of the clamp 11 and fastened to the fixing nut 8, thereby fixing the core 2.

However, since the vegetable oil has a high viscosity and a high flash point as described above, the clamp 11 coupled to the upper end of the core 2 even when the oil is circulated to the radiator (not shown) in the state heated by the coil 9. Since a certain area of the circulation path is blocked, there is a problem that cannot be smoothly circulated.

The present invention devised to solve the problem of lowering the circulation of vegetable oil as described above, by forming at least one circulation hole in the clamp to fix the coil and the core embedded in the transformer to the heat generated from the high viscosity vegetable oil in the coil It is an object of the present invention to provide a structure of a clamp for a vegetable oil transformer, by which the cooling efficiency is increased by not disturbing the circulation when heated by the convection phenomenon.

The above object is coupled to the upper end of the vertical bracket for fixing the core and the coil wound on the core embedded in the tank, the clamp of the vegetable oil transformer having at least one circulation hole formed at the top to ensure a circulation path of the heated vegetable insulating oil Achieved by the structure.

Here, it is preferable to form a plurality of circulation holes in at least one of a lattice shape and a radial shape.

Hereinafter, the configuration and operation of the present invention with reference to Figures 3 and 4 as follows.

Therefore, a brief look at the internal structure of the transformer, as shown in Figure 3, the lower portion of the core 102 is fixed to the holder 104 provided on the inner bottom surface of the tank.

On the other hand, as shown in Figure 3 on both sides of the core 102 is fixed bracket 105 is installed on the fixing stand 104 to secure the core 102, coupled to the upper end of the fixing bracket 105 The fixing bolt 106 is penetrated by the through hole 107 of the clamp 100 according to the present invention and fastened to the fixing nut 108, thereby fixing the core 102.

At this time, the clamp 100 according to the present invention is formed in the circulation hole 110 so that the upper surface is almost opened as shown in Figure 3 is heated in the coil 109 is circulated from the bottom to the top The vegetable oil is circulated through the circulation hole 110 to smoothly flow to the radiator (not shown) side.

Therefore, when vegetable oil having a high viscosity is heated, hot vegetable oil flows to the upper portion of the vegetable oil due to convection, and at this time, since the circulation hole 110 is formed in the clamp 100 that obstructs the circulating flow of the vegetable oil, the core 102 And the vegetable oil heated around the coil 109 are transferred to the radiator side, and the vegetable oil heat-exchanged at the radiator side can smoothly perform a cooling cycle flowing into the bottom of the tank.

In addition, as shown in Figure 4 it is preferable to form a plurality of circulation holes 110 in the upper surface of the clamp 100 in a grid or radial to increase the circulation efficiency of the vegetable oil.

As described above, the present invention allows the high viscosity vegetable oil used as the insulating oil of the transformer to be circulated to the upper part through the circulation hole of the clamp coupled to the upper part of the core and the coil when heated around the core and the coil. The cycle can be performed smoothly and has an effect of improving the cooling performance of the vegetable oil.

Claims (2)

The structure of the clamp for vegetable oil transformer is coupled to the top of the vertical bracket for fixing the core and the coil wound on the core built in the tank, the at least one circulation hole is formed at the top to ensure the circulation path of the heated vegetable insulating oil. The method of claim 1, The circulation hole, Clamp structure for a vegetable oil transformer, characterized in that formed in plural and at least one of a radial.

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