KR200244164Y1 - Transformer radiator having improved radiating plate - Google Patents

Abstract

The present invention relates to a radiator for a transformer with improved heat dissipation efficiency, the upper header 21 having an inlet pipe (21a) is installed in communication with the upper side of the transformer body 10, the insulating oil and transformer (T) is built-in , A lower header 22 having an outlet pipe 22a installed in communication with the lower side of the transformer body 10, and a plurality of heat sinks installed in communication between the upper header 21 and the lower header 22. In the radiator for a transformer, a plurality of vertical dimples 26 formed in the flow direction of the insulating oil on the surface of both sides of the heat sink 25, and formed in the direction of the comb between the edges and the vertical dimples 26 of the heat sink 25 Comb pattern dimple 27 is characterized in that formed.

Description

Transformer radiator having improved radiating plate

The present invention relates to a radiator for a transformer with improved heat dissipation efficiency.

A transformer is a device that forms the core of a power facility, and is composed of a transformer installed inside to change a high voltage to a low voltage and a radiator installed outside to radiate heat generated from the transformer to the outside. The periphery of the transformer is filled with insulating oil, and the insulating oil can circulate the radiator. Heat generated in the transformer is transferred to the radiator by the insulating oil, and the radiator cools the insulating oil by the outside air, thereby preventing the transformer from overheating.

Such a radiator is composed of a plurality of heat sinks, each of which is formed with a plurality of passages through which the insulating oil flows. Since the heat dissipation effect of the radiator leads to an improvement in the performance of the transformer, various studies are being conducted to increase the heat dissipation efficiency of the radiator.

The present invention has been made in order to reflect the above trend, and an object of the present invention is to provide a transformer radiator with improved heat dissipation efficiency that can more effectively dissipate heat of the transformer.

1 is a view schematically showing a coupling structure of a transformer radiator and a transformer main body according to the present invention;

Figure 2 is a side view of the radiator for transformer of Figure 1,

3 is a front view of the radiator for a transformer of FIG.

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

10 ... transformer body 20 ... radiator

21 ... upper header 21a ... inlet pipe

22 ... lower header 22a ... outlet pipe

25 ... heat sink 26 ... vertical dimple

27 ... comb-shaped dimples

In order to achieve the above object, the radiator for a transformer having improved heat dissipation efficiency according to the present invention, the upper header having an inlet pipe installed in communication with the upper side of the transformer body in which the insulating oil and the transformer is built, and the transformer body In the radiator for a transformer comprising a lower header having an outlet pipe is installed in communication with the lower side of the side, and a plurality of heat dissipating plate is installed in communication between the upper header and the lower header, the flow direction of the insulating oil on both surfaces of the heat sink And a plurality of vertical dimples formed in the shape of the plurality of vertical dimples and a comb-shaped dimple formed in the direction of the comb-shaped pattern between the edges of the heat sink and the vertical dimples.

Hereinafter, with reference to the accompanying drawings, the radiator for transformer with improved heat dissipation efficiency will be described in detail.

1 is a view schematically showing a coupling structure of a transformer radiator and a transformer body according to the present invention. Referring to the drawings, according to the present invention, the heat dissipation efficiency 20 of the transformer having improved heat dissipation efficiency is installed in communication with the side of the transformer body 10 in which a transformer (not shown) is embedded and filled with insulating oil, thereby generating heat generated from the transformer. To cool the transformer by releasing it to the outside.

FIG. 2 is a side view of the radiator for a transformer of FIG. 1, and FIG. 3 is a front view of the radiator for a transformer of FIG. 2.

The above-described transformer radiator 20 includes a plurality of upper and lower headers 21 and 22 coupled to upper and lower sides of the transformer body, respectively, and a plurality of upper and lower headers 21 and 22. It consists of a heat sink 25. The upper header 21 is formed with an inlet pipe 21a through which the insulating oil flows from the transformer body 10, and the lower header 22 flows into the transformer body 10 while the insulating oil cooled while passing through the heat sinks 25. Outflow pipe 22a is formed. That is, the transformer body 10, the upper and lower headers 21 and 22, and the heat sink 25 are in communication with each other so that the insulating oil can flow.

If one of the heat sink is described as an example, the heat sink 25 is welded so that the edge of the two iron plate is sealed, the iron plate and the other iron plate is spaced apart a predetermined interval and the insulating oil is filled into the heat sink.

On both surfaces of the heat sink 25, a plurality of dimples are formed to correspond to each other to increase the contact surface area with the outside air and to induce vortex of the insulating oil, and these dimples are substantially recessed on both surfaces of the heat sink 25. They are in contact with each other inside the heat sink.

As illustrated in FIG. 3, the dimples are formed between a plurality of vertical dimples 26 which divide the heat sink 25 into a plurality of compartments so that the insulating oil flows separately, and between each vertical dimple 26 and an edge of the heat sink. A plurality of comb-shaped dimples 27 are formed.

The vertical dimples 26 are formed in the direction in which the insulating oil flows. The comb-shaped dimple 27 is formed so that it may incline approximately 45 degrees with respect to the horizontal direction. By having such a forming angle, it is possible to form the largest number of comb-shaped dimples 27 that can most effectively induce vortices of air flowing through the outer circumference of the heat sink 25.

As such, since the vertical dimples 26 and the comb-shaped dimples 27 are formed, the flow of the insulating oil flowing through the heat sink 25 is disturbed. In particular, the insulating oil is vortexed by the comb-shaped dimples 27, and thus stays inside the heat sink 25 for a longer time. The flow of insulating oil is disturbed and vortexed by the vertical dimples 26 and the comb-shaped dimples 27 so that the heat of the insulating oil is effectively transferred to the surface of the heat sink 25.

In addition, the vertical dimples 26 and the comb-shaped dimples 27 increase the surface area of the heat sink 25 and also induce vortices of air flowing between the heat sinks. Therefore, while the air stays between the heat sinks 25 for a long time, the heat of the heat sinks 25 is transferred to the air.

As such, the vertical dimples 26 and the comb-shaped dimples 27 hinder the flow of the insulating oil inside the heat sink and vortex to allow the heat of the insulating oil to be transferred to the surface of the heat sink 25 while staying for a long time. Vortex causes the heat of insulating oil to be transferred to the air as a result. Thereby, the transformer in a transformer main body can be cooled.

In the present embodiment, the comb-shaped dimples 27 are formed symmetrically with respect to the vertical dimples 26 at the center of the heat sink, but may be formed in a zigzag shape independently.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible.

As described above, according to the radiator for a transformer having improved heat dissipation efficiency according to the present invention, when the insulating oil via the heat generating transformer passes through the heat sink, it is vortexed by the vertical dimple and the comb-shaped dimple, The heat sink is effectively cooled by heat from the outside and vortexed by vertical dimples and comb-shaped dimples. Accordingly, the effect of improving the problems of damage and insulation of the transformer due to the decrease in cooling performance is generated.

Claims (1)

An upper header having an inlet pipe installed in communication with the upper side of the transformer body in which the insulating oil and a transformer are embedded, a lower header having an outlet pipe installed in communication with the lower side of the transformer body, and between the upper header and the lower header. In the radiator for transformer comprising a plurality of heat sinks installed in communication with, Radiator for improved heat dissipation efficiency, characterized in that a plurality of vertical dimples formed in the flow direction of the insulating oil and the comb-shaped dimples formed in the direction of the comb pattern between the edges and the vertical dimples of the heat sink is formed on both surfaces of the heat sink .