KR20130005575U - Power transformer - Google Patents

Abstract

The present invention relates to a power transformer, which is disposed outside the iron core, the primary winding and the secondary winding wound around the iron core, the frame supporting the iron core and the iron core, and can conduct electricity to the frame on one side. It is configured to have a connecting plate having a connecting portion to be connected. As a result, it is possible to suppress the occurrence of grounding failure in the ground connection between the component parts.

Description

Power transformer {POWER TRANSFORMER}

The present invention relates to a power transformer, and more particularly, to a power transformer that can suppress the occurrence of ground faults when the ground connection between components.

As is well known, a transformer or a power transformer is a device that changes the value of alternating voltage or current by using electromagnetic induction.

Such a transformer includes an iron core (core) forming a magnetic path, a primary winding wound around the iron core with a predetermined number of turns, and a secondary winding wound with the primary winding and a predetermined winding ratio. It can be configured with a winding.

Some of the above-described transformers include an enclosure and a so-called inflow (oil) transformer in which a transformer body is disposed inside the enclosure, and oil (insulating oil) is injected to insulate and cool the windings.

1 is a view showing an example of a conventional power transformer, Figure 2 is an enlarged view of the main portion of FIG.

As shown in FIG. 1, the power transformer may include an enclosure 10 and a transformer body 20 accommodated in the enclosure 10.

An oil (insulating oil) may be accommodated in the enclosure 10.

The transformer body 20 includes an iron core 21 forming a magnetic circuit, a primary winding 31 and a secondary winding 32 wound around the iron core 21, and the iron core 21. It may be configured with a frame 40 for supporting.

The frame 40 may include a lower frame 41 disposed below the iron core 21 and an upper frame 42 disposed above the iron core 21.

The iron core 21 may be formed by, for example, insulating laminating a plurality of electrical steel sheets 22.

The electrical steel sheet 22 may be spaced apart from, for example, a gap.

A connection plate 50 may be provided on the outer side of the iron core 21. Thereby, it can be suppressed that the electrical steel sheet is separated from the outside.

On the other hand, the connection plate 50 and the frame 40 when the direct contact constitutes an electrical closed circuit may generate a circulating current by the leakage magnetic flux. This circulating current can cause a local temperature rise and shorten the life of the device.

In consideration of such a problem, an insulating member 52 may be interposed between the connection plate 50 and the frame 40. As a result, the current (circulating current) flow of the connection plate 50 and the frame 40 can be restricted.

The connecting plate 50 and the lower frame 41 may be coupled by a fixing member 56 (for example, a bolt), as shown in FIG. 2.

The lower frame 41 may be provided with an insulating member 53 to be insulated from the fixing member 56.

The insulating member 53 may be implemented in a tube or tubular shape so that the fixing member 56 may be inserted therein.

The lower frame 41 and the connection plate 50 may be connected by a ground line 55 (for example, a copper wire) for grounding.

The connecting plate 50 and the lower frame 41 may be formed with a weld 57 welded to each end of the ground wire 55.

However, in such a conventional power transformer, the connection plate 50 and the lower frame 41 are connected to each other by welding the ground wire 55, so that the inside of the enclosure 10 of the transformer body 20 is connected. When inserted, a ground failure such as disconnection of the ground line 55 and / or dropping of the welded portion 57 may occur.

Accordingly, an object of the present invention is to provide a power transformer capable of suppressing the occurrence of a ground failure in the ground connection between components.

Therefore, the present invention, to achieve the object as described above, iron core; A primary winding and a secondary winding provided around the iron core; A frame supporting the iron core; And a connection plate disposed at an outer side of the iron core and having a connection portion connected to the frame so as to be electrically connected to one side of the iron core.

The connection plate may include a connection plate main body disposed vertically to the outside of the iron core in a vertical direction of the frame, and the connection unit may be configured to be bent horizontally below the connection plate main body.

The frame may include an upper frame disposed above the iron core and a lower frame disposed below the iron core, and the lower frame may be provided with a contact surface in electrical contact with the connecting portion.

The lower frame may include a base disposed below the connection part and a side support part disposed above the connection part, and the contact surface may be formed on the base and the side support part, respectively.

The side support portion may be configured to include a vertical section disposed in the vertical direction, and a horizontal section extending horizontally from the lower end of the vertical section.

The side support part may be configured to include a vertical section disposed along the vertical direction, a lower horizontal section and an upper horizontal section disposed horizontally on the lower and upper ends of the vertical section.

The connection plate body may be configured to extend downward on one side of the vertical section.

It may further include an insulating member interposed between the vertical section and the connection plate body.

The connection part and the frame may be fixed by a fixing member.

As described above, according to an embodiment of the present invention, by having a connecting plate having a connecting portion disposed on the outside of the iron core and connected to the frame so as to be energized, the welded to the frame and the connecting plate The use of the grounding wire can be eliminated, and the occurrence of grounding failure due to disconnection of the grounding wire and / or dropping of the weld can be suppressed.

1 is a view showing an example of a conventional power transformer,
2 is an enlarged view illustrating main parts of FIG. 1;
3 is a cross-sectional view of a power transformer according to an embodiment of the present invention,
Figure 4 is a side cross-sectional view of the transformer body of Figure 3,
5 is an enlarged view illustrating main parts of FIG. 4;
6 is an enlarged view illustrating main parts corresponding to FIG. 5 of a power transformer according to another embodiment of the present invention.

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

As shown in Figure 3 and 4, the power transformer according to an embodiment of the present invention, the iron core 130; A primary winding 141 and a secondary winding 142 provided around the iron core 130; A frame 150 supporting the iron core 130; And a connection plate 190 disposed at an outer side of the iron core 130 and having a connection portion 194 connected to the frame 150 so as to be electrically connected to one side of the iron core 130.

Power transformer according to an embodiment of the present invention, the enclosure 110 or a tank (hereinafter, referred to as the 'enclosure 110') and the transformer body 120 accommodated in the interior of the enclosure 110 It may be provided with.

The power transformer of the present embodiment may be configured of, for example, a so-called inflow type power transformer in which insulating oil (oil) is accommodated in the enclosure 110.

The power transformer of this embodiment may be composed of, for example, a power transformer of 5 kA or more.

One side of the enclosure 110, for example, the upper side may be provided with an oil tank 112.

The oil tank 112 may communicate with the enclosure 110.

The lower side of the oil tank 112 may be provided with a connection pipe 114 for connecting the oil tank 112 and the enclosure 110.

One side of the enclosure 110 may be provided with a control unit 116.

The enclosure 110 may be provided with a high voltage terminal 117 and a low voltage terminal (not shown), respectively.

A ground portion 113 may be provided in one region of the enclosure 110.

The ground portion 113 may be connected to the other end of the ground cable 115, one end is embedded in the ground.

The transformer body 120 may be accommodated in the enclosure 110.

An inner side of the enclosure 110 may be provided with a tap-changer 118.

The tap changer 118 may be configured of a so-called OLTish (OLTC) capable of tap switching at load (operation).

The transformer body 120 includes, for example, an iron core 130 forming a magnetic circuit, a winding 140 provided around the iron core 130, and the iron core 130 and the winding 140. It may be configured to include a frame 150 for supporting.

The iron core 130 may be formed by, for example, insulating laminated electrical steel sheet 135 (silicon steel sheet).

The iron core 130 may be configured such that the winding 140 of three phases (for example, A phase, B phase, and C phase) may be wound.

The iron core 130 may include, for example, three vertical parts 131 on which windings 140 of each phase are wound (wound), and horizontal parts disposed horizontally on upper and lower ends of the vertical parts 131, respectively. 132 may be configured to have a substantially ladder shape.

The frame 150 may be provided around the iron core 130 to support the iron core 130.

The frame 150 may be configured to include a lower frame 160 disposed below the iron core 130 and an upper frame 180 disposed above the iron core 130.

The upper frame 180 may be configured to receive and support the upper horizontal portion 132 of the iron core 130 therein. More specifically, the upper frame 180 may be configured to surround the front, rear and upper side of the upper horizontal portion 132 of the iron core 130. The upper frame 180 may have, for example, an inverted “U” cross-sectional shape.

The lower frame 160 may be configured to receive and support the lower horizontal portion 132 of the iron core 130.

More specifically, the lower frame 160 may be configured to surround the front, rear and bottom of the lower horizontal portion 132 of the iron core 130.

The lower frame 160 may have, for example, a “U” cross-sectional shape.

The frame 150 may be provided with a ground connection part 182 for connection with the enclosure 110 for grounding. For example, the ground connection part 182 may be formed to protrude upward from one side (upper side in the present embodiment) of the upper frame 180.

The ground connector 182 may be configured to be connected to the enclosure 110 by, for example, a ground cable 184. In addition, the ground connector 182 may be configured to be directly connected to the enclosure 110.

A connection plate 190 may be provided on the outer side of the iron core 130.

The connection plate 190 may be disposed on the outer side (outside) of the plurality of electrical steel sheets 135 constituting the iron core 130 to suppress the electrical steel sheet 135 from being separated outward.

The connection plates 190 may be disposed in front and rear of each vertical portion 131 of the iron core 130, respectively, and may be configured in total.

Each vertical portion 131 of the iron core 130 may be provided with each phase winding 140.

The winding 140 may include a primary winding 141 and a secondary winding 142 having a predetermined winding ratio so as to change a voltage.

For example, a secondary winding 142 may be provided around the iron core 130, and a primary winding 141 may be provided outside the secondary winding 142.

The primary winding 141 and the secondary winding 142 may be arranged concentrically.

On the other hand, each of the connection plate 190 may be provided with a connection plate body 192 perpendicular to the outside of the iron core 130 in the vertical direction of the frame 150.

Each of the connection plates 190 may be provided at a lower end of the connection plate body 192 to be connected to the lower frame 160 so as to be electrically connected to the connection unit 194.

The connection part 194 may be configured to be bent horizontally below the connection plate body 192.

The lower frame 160 may have a contact surface in direct contact with the connection portions 194 of the respective connection plates 190. As a result, the lower frame 160 and the connection plate 190 may be connected to each other so as to be energized.

More specifically, the lower frame 160 may include a base 161 disposed on the lower side of the iron core 130 and side support parts 165 disposed on both sides of the iron core 130, respectively. .

Each of the side support parts 165 may include a vertical section 166 disposed along an up and down direction, and a horizontal section 167 bent horizontally at a lower end of the vertical section 166.

An insulating member 197 may be provided between the vertical section 166 of the side support 165 and the connection plate body 192. As a result, the current flow between the lower frame 160 and the connection plate body 192 may be controlled. More specifically, energization between the vertical section 166 of the side support 165 and the connection plate body 192 may be suppressed.

The connection part 194 of the connection plate 190 may be inserted between the base 161 and the horizontal section 167 of the side support 165. Here, the upper surface of the base 161 and the horizontal section 167 of the side support 165 may be provided with contact surfaces 163 and 168 to be in electrical contact with the connecting portion 194, respectively.

The lower frame 160 and the connection plate 190 may be fixedly coupled by, for example, the fixing member 210.

The fixing member 210 may be implemented by, for example, a bolt 210.

More specifically, for example, the base 161 may have a fixing member coupling part 164 to be coupled to the fixing member 210.

Passing holes 195 may be formed in the connection portion 194 to allow the fixing member 210 to pass therethrough.

An insertion hole 169 may be formed in the side support part 165 to insert the fixing member 210.

The fixing member 210 may have a nut 212 screwed to the male screw portion.

Here, a female screw portion (not shown) may be formed in the insertion hole 169 so that the fixing member 210 may be screwed to the female screw portion.

In the power transformer of the present embodiment, the connection part 194 is electrically contacted (grounded) by being in direct contact with the horizontal section 167 of the side support part 165 and the upper surface of the base 161, respectively, thereby providing a separate ground wire (copper wire). ) And the welding work for the connection of the ground wire.

On the other hand, the lower frame 160, as shown in Figure 6, the vertical section portion 176, the lower horizontal section portion 177 bent at the bottom and top of the vertical section 176, respectively, and extended outwards. ) And a side support portion 175 having upper horizontal inter-interval portions 179, respectively. As a result, even when the capacity of the device is increased and the sizes of the iron core 130 and the winding 140 increase, the support of the iron core 130 may be smoothly performed.

The bottom portion of the lower horizontal section portion 177 may be provided with a contact surface 178 to be in contact with the connection portion 194 of the connection plate 190 to be energized.

By such a configuration, connecting plates 190 may be disposed on both sides (front and rear) of each vertical portion 131 of the iron core 130, respectively.

The connection part 194 of the connection plate 190 may be in electrical contact with the base 161 of the lower frame 160.

Side support portions 165 may be placed on the upper side of the connection portion 194 of the connection plate 190, respectively. In this case, an insulating member 197 may be inserted between the vertical section 166 of the side support 165 and the connection plate body 192.

Each horizontal section 167 (or lower horizontal section 177) of each of the side support parts 165 may be in direct contact with the upper surface of the connection part 194.

Insert the fixing member 210 in a state in which the fixing member coupling portion 164, the through hole 195 and the insertion hole 169 is in communication with each other, and a nut at an end of the fixing member 210 protruding to the opposite side. 212 may be combined. As a result, the lower frame 160 and the connection plate 190 may be integrally fixed.

On the other hand, when the winding 140 is coupled to each vertical portion 131 of the iron core 130 to form a transformer body 120 can accommodate the transformer body 120 installed inside the enclosure 110. have. In this case, in the transformer body 120 of the present embodiment, the connection plate 190 and the lower frame 160 are directly in contact with the lower frame 160 by the connecting portion 194 without using a separate ground wire. When the transformer body 120 is inserted, ground faults due to disconnection of the ground wire and / or dropping of the ground wire welding part may be suppressed.

110: enclosure 120: transformer body
130: iron core 131: vertical portion
132: horizontal portion 140: winding
141: primary winding 142: secondary winding
150: frame 160: lower frame
161: base 163,168: contact surface
165: side support 166: vertical section
167: horizontal section 190: connecting plate
192: connecting plate body 194: connecting part
197: insulating member 210: fixing member

Claims (8)

Iron core;
A primary winding and a secondary winding wound around the iron core;
A frame supporting the iron core; And
A connection plate disposed on an outer side of the iron core and having a connection part connected to the frame so as to be energized;
Power transformer comprising a. The method of claim 1,
The connection plate has a connection plate body disposed vertically to the outside of the iron core in the vertical direction of the frame, the connection portion is a power transformer, characterized in that formed horizontally bent in the lower portion of the connection plate body . The method of claim 1,
The frame includes an upper frame disposed above the iron core, and a lower frame disposed below the iron core, and the lower frame includes a contact surface in electrical contact with the connecting portion. Transformers. The method of claim 3,
The lower frame includes a base disposed under the connection portion and a side support portion disposed above the connection portion, and the contact surface is formed on the base and the side support portion, respectively. 5. The method of claim 4,
The side support portion has a vertical section disposed in the vertical direction, and a power transformer comprising a horizontal section extending horizontally from the lower end of the vertical section. 5. The method of claim 4,
The side support portion has a vertical section disposed along the vertical direction, and the lower horizontal section and the upper horizontal section disposed horizontally on the lower and upper ends of the vertical section. The method according to claim 5 or 6,
The power transformer further comprises an insulating member interposed between the vertical section and the connecting plate body. 7. The method according to any one of claims 1 to 6,
The power transformer further comprises a fixing member for fixing the connecting portion and the frame.

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