KR200359403Y1 - Three phase slim-type Transformer - Google Patents

Abstract

The present invention relates to a three-phase slim transformer, comprising: a plurality of transformer cores stacked vertically in an interior of a transformer enclosure; And three-phase coils vertically connected to the transformer core in a longitudinal direction.

According to the present invention, the transformer is installed in a city or other places where the installation area is restricted, and the core and coil structures of the three-phase transformer are vertically stacked so that the installation area is about 50% compared to the existing three-phase transformer. It is possible.

Description

Three phase slim-type transformer

The present invention relates to a three-phase (three-phase) transformer, and more particularly to a three-phase slim transformer that can reduce the installation area of the transformer by stacking the three-phase coil vertically.

In recent years, with the rapid development of the industry, the demand for electricity is rapidly increasing, so as to increase the power supply capacity per unit of stockholders, it can increase the reliability of power supply, improve the utilization rate of power supply equipment, and simplify the stockholders. There is an increasing need for the development of columnar transformers.

In general, the columnar transformer is a device that receives power from a high-voltage (22000V) power transmission line and transforms it to a general use voltage (220V) that can be used by customers. It is used.

The inlet-type column transformer is provided with three to four transformer cores to assume a single phase or three phases into the transformer enclosure, the transformer core is the primary winding of the high-voltage winding and the secondary winding of the low-pressure winding; Insulating oil is filled inside the transformer enclosure.

Until now, as a part of obtaining a three-phase power source, most of the non-boost-powered areas have been connected by reverse V-connection using a single-phase ground transformer, and three-phase transformers have been Y-connected in the boosted area.

However, in the case where three single-phase ground transformers are connected in order to obtain a three-phase power source as described above, as shown in FIG. 1, the three-phase coils 30 are horizontally disposed inside the transformer enclosure 10. As a large installation area is required, the appearance of the pole is complicated, and the construction cost of the substation room is increased, and there is a problem that a three-phase transformer cannot be installed in a narrow space.

In addition, as shown in Figure 2, the primary side to which the three-phase power is applied, that is, the high-voltage side bushing 40 is installed on the upper cover of the transformer enclosure 10, the three-phase transformer inside the transformer enclosure 10 The secondary side for supplying the low pressure side power modified by the core 20, that is, the low pressure side bushing 50 is disposed horizontally with the high pressure side bushing 40 on the upper cover of the transformer enclosure 10 so that a large installation area is provided. This was required.

Therefore, the present invention was devised to solve the conventional problems as described above, and an object of the present invention is to vertically stack the core and coil structures of a three-phase transformer to significantly reduce the installation area of the transformer (50 compared with the existing transformer). It is to provide a three-phase slim transformer that can simplify the length of the pole while maintaining.

Another object of the present invention is to install the high and low pressure side bushings up and down in front of the transformer enclosure, and use the bushing insert and elbow connector instead of the existing high voltage insulator bushings. It is to provide a three-phase slim transformer that can realize a slimmer transformer as a whole by reducing the size of the protrusion.

To achieve the above object, a three-phase slim transformer according to the present invention includes: a three-phase transformer comprising: a plurality of transformer cores stacked vertically inside the transformer enclosure; And three-phase coils vertically connected to the transformer core in a longitudinal direction.

A high pressure side bushing to which a three-phase power is applied, and a low pressure side bushing for supplying the low voltage side power modified by the transformer core to the front of the transformer enclosure; The high pressure side bushing is characterized by using a bushing insert and an elbow connector.

1 is a core and coil structure diagram of a conventional three-phase transformer,

2 is an external view of a conventional three-phase transformer,

3 is a core and coil structure diagram of a three-phase slim transformer according to an embodiment of the present invention,

Figure 4 is an external view of a three-phase slim transformer according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

100: transformer enclosure 200: transformer core

300 coil 400 high pressure side bushing

500: low pressure side bushing

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention will be described in detail.

1 is a core and coil structure diagram of a conventional three-phase transformer, Figure 3 is a core and coil structure diagram of a three-phase slim transformer according to an embodiment of the present invention.

In the conventional three-phase transformer, as shown in FIG. 1, a plurality of transformer cores 20 are arranged horizontally adjacent to each other in a longitudinal direction in the transformer enclosure 10, and the plurality of transformer cores 20 On both sides, three-phase coils 30 wound around the primary winding and the secondary winding are arranged horizontally.

On the other hand, in the three-phase slim transformer of the present invention, as shown in Figure 3, the three-phase transformer core 200 is vertically stacked in the interior of the transformer enclosure 100, each of the transformer core 200 Since the three-phase coil 300 wound around the primary winding and the secondary winding on the both sides of the transformer core 200 are vertically connected to each other, the total installation area of the transformer is significantly reduced than that of the conventional three-phase transformer. You can.

For example, a three-phase 300 kVA, the area x width of the conventional three-phase transformer is 1.2272 (M2), but in the case of the three-phase transformer of the present invention, 0.5984 (M2) corresponds to 49 (%) of the conventional transformer, installation area Can be reduced to 51 (%).

4 is an external view of a three-phase slim transformer according to an embodiment of the present invention.

As shown in FIG. 4, three primary sides to which three-phase power is applied, that is, a high-pressure bushing 400 are installed at the front of the transformer enclosure 100, and a three-phase transformer core inside the transformer enclosure 100. Four secondary sides, that is, the low pressure side bushings 500 for supplying the low pressure side power modified by the 200, are provided on the front side of the transformer enclosure 100 and four up and down with the high pressure side bushings 400.

In addition, the high pressure side bushing 400 uses a bushing insert and an elbow connector used for a pad mounted transformer without using a conventional high voltage insulator bushing. By reducing the size of the protruding portion by installing the front of the transformer enclosure 100), it is possible to realize the slimming of the transformer as a whole.

According to the three-phase slim transformer according to the present invention as described in the above description, while the core and coil structure of the three-phase transformer can be stacked vertically, the installation area of the transformer can be significantly reduced (less than 50% compared to the existing transformer), Bushing inserts and elbow connectors are used to install the high and low side bushings up and down the front of the transformer enclosure, instead of using conventional high voltage insulator bushings. By reducing the size of the protrusion of the high-pressure side bushing, the overall transformer can be made slimmer.

What has been described above is only one embodiment for implementing a three-phase slim transformer according to the present invention, the present invention is not limited to the above-described embodiment, the general knowledge of the art within the technical spirit of the present invention Of course, various modifications are possible by those who have.

Claims (2)

In a three-phase transformer, A plurality of transformer cores 200 stacked vertically inside the transformer enclosure 100; And Three-phase slim transformer, characterized in that it comprises a three-phase coil 300 is arranged vertically connected to the plurality of transformer cores 200 in the longitudinal direction. The method of claim 1, On the front of the transformer enclosure 100, a high pressure side bushing 400 to which a three-phase power is applied, and a low pressure side bushing 500 to supply the low voltage side power modified by the transformer core 200 are installed up and down. Become; The high pressure side bushing 400 is a three-phase slim transformer, characterized in that using the bushing insert and elbow connector.