KR101601905B1 - Transformers installation structure - Google Patents

Abstract

The present invention relates to a structure for installing a transformer for transformation of electric power. A transformer cabinet (20) is installed on a transformer installation base (30) to absorb an impact by a vertical impact-absorbing means (100). A connection frame (400) is installed on the transformer installation base (30) to absorb the impact by a first horizontal impact-absorbing means (200). The transformer cabinet (20) is installed on the connection frame (400) to absorb the impact by a second horizontal impact-absorbing means (300). When the impact and the vibration are applied from the ground by an earthquake or the like, the impact and the vibration are absorbed by the vertical impact-absorbing means (100), the connection frame (400), the first horizontal impact-absorbing means (200), and the second horizontal impact-absorbing means (300) to minimize the impact and the vibration transferred to the transformer cabinet (20) and a transformer (10) installed in the transformer cabinet (20) to prevent damage to the transformer and disconnection or a short of a power transmission line to safely maintain the transformer for transformation of electric power.

Description

Transformers installation structure < RTI ID = 0.0 >

The present invention relates to an installation structure of a variable transformer among technologies of high-voltage transmission, and it has impact resistance and vibration proof against shocks and vibrations applied from the ground due to earthquakes, so that shock and vibration are transmitted to the transformer cabinet and the transformer The transformer is prevented from being broken and the power line is disconnected or short-circuited, so that the transformer can be safely maintained.

A substation is a collection of facilities that are installed for the purpose of modifying the voltage or current and distributing power in the process of sending power generated by a power plant to a customer through transmission or distribution lines.

In order to transport power from the power plant to the customer, it is necessary to pass a relatively long transmission line, which inevitably results in a loss corresponding to the product of the resistance of the line and the square of the current flowing through the line. In order to reduce the transmission loss, a thick wire is used to reduce the resistance or increase the transmission voltage so as to reduce the current during the same power transmission.

On the other hand, the voltage of the generator is usually in the range of 20 kV to 30 kV in consideration of the manufacturing cost, etc., and the voltage is boosted to the transmission voltage for transmission. The transmission voltage of Korea is 66 kV, 154 kV and 345 kV, and recently, 765 kV transmission line is being constructed.

In addition, the above-mentioned transmission electric power is reduced to a special high voltage of 22.9 kV in the final transformer and is transmitted.

In order to supply electric power to electric power customers in urban areas, power transmission towers or electric transmission lines using electric poles have been widely used. However, these overhead transmission lines have been replaced by underground transmission lines for reasons of safety and cosmetic reasons.

As shown in Fig. 10, the conventional final transformer is installed with a transformer mounting base 3 made of a concrete structure on the ground, and a transformer cabinet 2 on which the transformer 1 is mounted. In the figure, 4 denotes a transmission line protection pipe, and 5 denotes a transmission line.

The transformer cabinet 2 is mounted in a manner using a conventional bolt and nut when mounting the transformer 1 in the conventional transformer cabinet 2 and in the case of installing the transformer cabinet 2 in the transformer mounting base 3, (Not shown) so as to protrude from the upper surface of the transformer mounting base 3, and the anchor bolts are passed through the lower surface of the transformer cabinet 2 to fasten the nuts.

On the other hand, Korea, which is known as a safe zone from an earthquake, is reported to be unsafe from an earthquake. Therefore, Korea is also aware of the necessity of seismic design for earthquake in installing various facilities.

However, since the mounting of the transformer 1 to the conventional transformer cabinet 2 and the installation of the transformer cabinet 2 to the transformer mounting base 3 are made by a conventional bolt / nut fastening method, And vibration can not be guaranteed.

As a prior art related to the above, Korean Registered Utility Model No. 20-0338262 (Registered on December 31, 2003) "Ground Support Type Transformer Supporting Device" (hereinafter referred to as "Prior Art") forms a supporting device into a synthetic resin material, And the low-voltage line and the grounding line are inserted into the air hole, the small hole and the through-hole are set to set the same so that the manufacturing cost is reduced. , And replacement and maintenance work of the ground transformer are performed by a simple manual operation, thereby reducing various incidental costs due to the maintenance and repair of the ground transformer.

However, the prior art has a disadvantage in that it can not solve the above-described conventional problems because a conventional bolt / nut fastening method is used in coupling the supporting device of the transformer.

Therefore, it is required to develop a technology for ensuring safety from impact and vibration caused by earthquake, etc., when installing a transformer for special high voltage transformer.

Korea Registered Utility Model No. 20-0338262 (Registered on 31st of December, 2003) "Supporting Device of Ground-mounted Transformer"

Therefore, the object of the present invention is to minimize the impact and vibration transmitted to the transformer cabinet and the transformer by minimizing the shock and vibration resistance against shocks and vibrations applied from the ground due to earthquakes, and to prevent breakage of the transformer and disconnection or short- So that the transformer can be safely maintained.

In order to achieve the above object, the present invention provides a transformer cabinet comprising: a transformer cabinet; a transformer cabinet having a vertical buffering means and a first horizontal buffering means in a transformer mounting base embedded in the ground as a concrete structure; Wherein the transformer cabinet comprises a cabinet body formed of a box-shaped iron plate structure having a front surface opened and a door opening and closing the front opening portion, and a transformer is installed in the transformer cabinet A bracket fixed to the bottom of the cabinet body is used, the bracket includes a lower horizontal portion that is seated on the bottom of the cabinet body and a vertical portion that is bent upward from the lower horizontal portion to face both sides of the transformer, The bolts passing through the bottom and the bottom of the body and the nut A transformer fixed to the bottom of the cabinet body and fixed to the transformer by a bolt passing through the vertical part and a nut fastened to the transformer; and an ultrahigh voltage transmission line connected to the primary side of the transformer, The transformer mounting base includes a bottom portion and an edge protruding upward from an edge of the bottom portion to correspond to the bottom of the cabinet body. A vertical anchor bolt buried in a bottom portion of the transformer mounting base and protruding upward and penetrating through the bottom of the cabinet body; and a vertical anchor bolt A vertical bolt through-hole is formed through which a vertical bolt through- A vertical buffering rubber disposed in the vertical hermetically closed chamber, a buffer oil filled in the vertical hermetically closed chamber, and a buffer oil filled in the vertical hermetically closed chamber, Wherein the first horizontal buffering means comprises a connecting frame composed of front, rear, left and right wall surfaces of the transformer mounting base, and front and rear left and right plates spaced from front and rear wall surfaces of the lower end of the cabinet body, A horizontal anchor bolt buried horizontally and embedded horizontally through the bottom of the mounting frame and horizontally extending through the lower half of the connecting frame and a horizontal anchor bolt through which the horizontal anchor bolt passes, A cylindrical first horizontal buffering rubber tube having a first horizontal sealing chamber formed around a through hole A first horizontal buffering spring embedded in the first horizontal hermetically closed chamber, a buffer oil filled in the first horizontal hermetically closed chamber, and a second buffering oil filled in the outer end of the horizontal anchor bolt, And a horizontal anchor nut. The connecting frame is made of an iron plate. The upper and lower ends of the connecting frame are bent at the upper and lower ends of the lower bent portion toward the front, rear, left and right wall surfaces of the transformer mounting base, And the second horizontal buffering means includes horizontal bolts protruding through the front, rear, left and right wall surfaces in the cabinet body and horizontally penetrating the upper half of the connection frame, and a horizontal bolt through which the horizontal bolt passes A cylindrical second horizontal buffering rubber tube in which a ball is formed and a second horizontal sealing chamber is formed around the horizontal bolt passage hole, A second horizontal cushion spring embedded in the second horizontal hermetically closed chamber, a buffer oil filled in the second horizontal hermetically closed chamber, and a horizontal nut fastened to an outer end of the horizontal bolt, And a transformer installed in the transformer.

According to the installation structure of the transformer for transformer of the present invention, the transformer cabinet is installed to be able to be buffered by the vertical buffering means with respect to the transformer mounting base, the connecting frame is installed to be able to be buffered by the first horizontal buffering means with respect to the transformer mounting base, Since the cabinet is provided so as to be able to be buffered by the second horizontal buffering means with respect to the connecting frame, when the shock and vibration are applied from the ground due to an earthquake or the like, the vertical buffering means, the connecting frame, the first horizontal buffering means and the second horizontal buffering means Shock and vibration are buffered to minimize impact and vibration transmitted to the transformer cabinet and the transformer installed therein, thereby preventing breakage of the transformer and disconnection or short-circuit of the transmission line, thereby safely maintaining the transformer.

1 to 10 show a preferred embodiment of the installation structure of the transformer for transformer according to the present invention,
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of an installed state of an installation structure of a displacement transformer according to the present invention;
Fig. 2 is a vertical cross-sectional view of the installation structure of the transformer for transformers according to the present invention, Fig.
3 is a partially cutaway exploded perspective view showing the installation structure of the transformer with respect to the transformer cabinet,
4 is an exploded perspective view showing the installation structure of the transformer cabinet and the vertical buffering means for the transformer installation base,
5 is an exploded perspective view showing the installation structure of the transformer cabinet with respect to the transformer mounting base and the first horizontal buffering means,
6 is an exploded perspective view showing the installation structure of the transformer cabinet with respect to the transformer mounting base and the second horizontal buffering means,
7 is a longitudinal sectional view showing the installation structure of the transformer with respect to the transformer cabinet,
8 is a longitudinal section showing the installation structure of the transformer cabinet for the transformer installation stand and the vertical buffering means,
9 is a longitudinal section showing the installation structure of the transformer cabinet with respect to the transformer mounting base, the first horizontal buffering means and the second horizontal buffering means,
10 is a sectional view taken along the line AA in Fig. 9,
11 is a longitudinal sectional view showing an example of the installation structure of a conventional displacement transformer.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an installation structure of a transformer according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description, bolt through holes through which various bolts pass are shown in the figure, but the reference numerals and explanations thereof are omitted.

According to the installation structure of the transformer of the present invention, the transformer 10 is installed inside the transformer cabinet 20, and the transformer cabinet 20 is connected to the transformer installation 30 buried in the ground as a concrete structure, (100) and the first horizontal buffering means (200) and the second horizontal buffering means (300).

The transformer 10 includes a transformer main body, a primary side bushing, and a secondary side bushing. The present embodiment is not related to the transforming function of the transformer but relates to the installation structure of the transformer. , And a case will be briefly shown and described.

The transformer cabinet 20 includes a cabinet body 21 formed of a box-shaped iron plate structure whose front surface is opened, and a door 22 for opening and closing the front opening portion.

When the transformer 10 is installed in the transformer cabinet 20, a bracket 40 fixed to the bottom of the cabinet body 21 is used.

The bracket 40 includes a lower end horizontal portion 41 mounted on the bottom of the cabinet body 21 and a vertical portion 42 bent upward from the lower end horizontal portion 41 and facing both sides of the transformer 10 And is fixed to the bottom of the cabinet body 21 by bolts 43 passing through the bottom and bottom horizontal portions 41 of the cabinet main body 21 and nuts 44 fastened to the bottom portions 41 of the cabinet main body 21, The bolt 45 passing through the vertical portion 42 and the nut 46 fastened to the vertical portion 42 fix the transformer 10. It is preferable that the nuts 44 and 46 are fastened two at a time to prevent loosening (see Figs. 2, 3 and 7).

The cabinet body 21 is formed at its bottom with a transmission line access hole 23 communicating with the transmission line protection pipe 50. The transmission line protection pipe 50 protects the extra high voltage transmission line L1 connected to the primary side of the transformer 10 and the extra high voltage transmission line L2 connected to the secondary side.

The transformer mounting base 30 includes a bottom portion 31 and an edge protruding portion 32 that protrudes upward from an edge of the bottom portion 31 and corresponds to the bottom of the cabinet body 21. [ At the center of the bottom portion 31, an insertion hole 33 into which the transmission line protection pipe 50 is inserted is formed.

The vertical buffering means 100 includes a vertical anchor bolt 110 buried in the bottom portion 31 of the transformer mounting base 30 and protruding upward and penetrating the bottom of the cabinet body 21, A cylindrical vertical buffering rubber tube 120 in which a vertical anchor bolt passage hole 121 through which the vertical anchor bolt passage hole 110 passes is formed and a vertical hermetically closed chamber 122 is formed around the vertical anchor bolt passage hole 121, A vertical cushion spring 130 embedded in the chamber 122, a cushioning oil 140 filled in the vertical hermetically closed chamber 122 and an upper anchor bolt 110, 21 and a vertical anchor nut 150 which is in close contact with the bottom of the vertical anchor nut 150 (see FIGS. 2, 4, and 8).

The vertical anchor bolts 110 may be partly embedded in the transformer installation block 30, which is a concrete structure.

The vertical buffering rubber tube 120 is formed of a rubber material having electrical insulation and buffering properties. In order to install the vertical buffer spring 130 in the vertical hermetically closed chamber 122, the vertical buffering rubber tube 120 is formed to open the upper or lower end of the vertical hermetically closed chamber 122, and then the vertical buffer spring 130 is inserted , And a donut-shaped rubber plate can be fused to the open end. The vertical buffer spring 130 is a compression coil spring.

The vertical buffer rubber tube 120 is pierced to inject the buffer oil 140 and the buffer oil 140 is injected through the hole and then the hole is closed or the vertical buffer rubber tube 120 is filled with the check valve type oil An injection nipple may be provided and the buffer oil 140 may be injected through the oil injection nipple. It is preferable that the buffer oil 140 use electric insulating oil so as to have an electric insulation function together with a buffer function.

It is preferable to use two nuts to prevent the vertical anchor nut 150 from being disengaged arbitrarily.

The first horizontal buffering means 200 includes a connection frame 400 including front, rear, left and right wall surfaces of the transformer mounting base 30 and front and rear left and right plates spaced apart from front and rear wall surfaces of the lower end portion of the cabinet body 21, A horizontal anchor bolt 210 horizontally protruding horizontally from the bottom part 31 of the connecting frame 400 and horizontally penetrating the lower half of the connecting frame 400; A first horizontal buffering rubber tube 220 having a horizontal anchor bolt passage hole 221 passing through the horizontal anchor bolt passage hole 221 and a first horizontal hermetically closed chamber 222 formed around the horizontal anchor bolt passage hole 221, A first horizontal buffering spring 230 embedded in the first horizontal hermetically closed chamber 222, a buffer oil 240 filled in the first horizontal hermetically closed chamber 222, Which is fastened to the outer end of the connection frame 400 and is in close contact with the lower end of the connection frame 400, Kerr is configured to include a nut 250 (Figs. 2, 5, 9 and 10.

The connecting frame 400 is made of an iron plate and has a lower bent portion 410 facing the front, rear, left and right wall surfaces of the transformer mounting base 30 at the upper and lower ends thereof for reinforcing, and front and rear left and right wall surfaces of the cabinet body 21 It is preferable that the upper bent portion 420 is formed.

The horizontal anchor bolts 210 may be partly embedded in the transformer installation block 30, which is a concrete structure.

The first horizontal buffering rubber tube 220 is formed of a rubber material having electrical insulation and buffering properties. In order to embed the first horizontal buffer spring 140 in the first horizontal hermetically closed chamber 222, the first horizontal buffering rubber tube 220 may be inserted into the front end or the rear end of the first horizontal hermetically closed chamber 222, Alternatively, the first horizontal buffer springs 230 may be inserted and the donut-shaped rubber plate may be fused to the open end thereof. The first horizontal buffer springs 230 are compression coil springs.

The first buffering rubber tube 220 is pierced to inject the buffer oil 240 and the buffer oil 240 is injected through the hole and then the hole is closed or the first buffering rubber tube 220 is checked A valve-shaped oil injection nipple may be provided and the buffer oil 240 may be injected through the oil injection nipple.

It is preferable that the buffer oil 240 is made of an electrically insulating oil so as to have an electric insulation function together with a buffer function.

Preferably, the horizontal anchor nut 250 uses two nuts to prevent the horizontal anchor nut 250 from being disengaged.

The second horizontal buffering means 300 includes a horizontal bolt 310 protruding through the front and rear left and right wall surfaces of the cabinet body 21 and horizontally passing through the upper half of the connection frame 400, A cylindrical second horizontal buffering rubber tube 320 having a horizontal bolt passage hole 321 through which the horizontal bolt 310 passes and a second horizontal sealing chamber 322 around the horizontal bolt passage hole 321; A second horizontal cushion spring 330 embedded in the second horizontal hermetically closed chamber 322, a buffer oil 340 filled in the second horizontal hermetically closed chamber 322, And a horizontal nut 350 fastened to an outer end of the connection frame 400 and closely attached to the upper end of the connection frame 400 (see FIGS. 2, 6, 9, and 10).

The connection frame 400 is a component commonly used in the first horizontal buffering means 200 and the second horizontal buffering means 300.

The second horizontal buffering rubber tube 320 is formed of a rubber material having electrical insulation and buffering properties. In order to embed the second horizontal buffer spring 140 in the second horizontal hermetically closed chamber 322, the second horizontal buffering rubber tube 320 is inserted into the front end portion or the rear end portion of the second horizontal hermetically closed chamber 322, Or the right end is opened, then the second horizontal buffer springs 330 are inserted, and a donut-shaped rubber plate is fused to the open end thereof. The second horizontal buffer springs 330 are compression coil springs.

The second buffering rubber tube 320 is pierced to inject the buffer oil 340 and the buffer oil 340 is injected through the hole and then the hole is closed or the second buffering rubber tube 320 is checked A valve-shaped oil injection nipple may be provided and the buffer oil 340 may be injected through the oil injection nipple.

It is preferable that the buffer oil 340 has an electric insulation property so as to have an electric insulation function together with a buffer function.

It is preferable to use two nuts in order to prevent the vertical nut 350 from being loosened arbitrarily.

The horizontal anchor bolts 210 constituting the first horizontal buffering means 200 and the second horizontal buffering means 300 and the front ends of the horizontal bolts 310 and the horizontal anchor nut 250 and the horizontal nuts 350 are connected Since it is protruded from the frame 400 and exposed to the outside, there is a possibility that a person other than the manager may unintentionally loosen the horizontal anchor nut 250 and the horizontal nut 350. To prevent this, the connection frame 400 and the horizontal anchor bolt And a finishing concrete 500 for embedding the horizontal anchor nut 250 and the horizontal nut 350 at the front end of the horizontal bolt 210 and the horizontal bolt 310.

The finishing concrete 500 may be laid in such a manner that its upper end coincides with the ground, but it is preferable that the upper half is laid out so as to protrude from the ground. Accordingly, the upper half of the connection frame 400 and the second horizontal buffering unit 300 can be installed higher than the ground.

The transformer cabinet 20 is installed in the transformer installation base 30 so as to be able to be buffered by the vertical buffering means 100 and is connected to the transformer installation base 30 via the connection frame 400, Since the transformer cabinet 20 is installed so as to be able to be buffered by the second horizontal buffering means 300 with respect to the connection frame 400 by the first horizontal buffering means 200, Shock and vibration are buffered by the vertical damping means 100, the connecting frame 400, the first horizontal damping means 200 and the second horizontal damping means 300 when the shock and vibration are applied to the transformer cabinet 20, It is possible to minimize the transmission of shock and vibration to the transformer 10 installed therein and to prevent breakage of the transformer and disconnection or short-circuit of the transmission line, thereby safely maintaining the transformer.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or essential characteristics thereof. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as falling within the scope of the present invention.

10: Transformer 20: Transformer cabinet
30: transformer mounting base 100: vertical buffer means
110: Vertical anchor bolt 120: Vertical buffer rubber tube
130 vertical buffer spring 140 buffer oil
150: vertical anchor nut 200: first horizontal buffering means
210: horizontal anchor bolt 220: first horizontal buffer rubber tube
230: first horizontal buffer spring 240: buffer oil
250: Horizontal nut 400: Connection frame

Claims (1)

The transformer 10 is installed inside the transformer cabinet 20 and the transformer cabinet 20 includes a vertical buffering means 100 and a first horizontal buffering means 200 in a transformer installation 30 buried in the ground as a concrete structure. ) And the second horizontal buffering means (300)
The transformer cabinet 20 includes a cabinet body 21 formed of a box-shaped iron plate structure having a front surface opened and a door 22 for opening and closing the front opening portion,
When the transformer 10 is installed in the transformer cabinet 20, a bracket 40 fixed to the bottom of the cabinet main body 21 is used,
The bracket 40 includes a lower end horizontal portion 41 mounted on the bottom of the cabinet body 21 and a vertical portion 42 bent upward from the lower end horizontal portion 41 and facing both sides of the transformer 10 And is fixed to the bottom of the cabinet body 21 by bolts 43 passing through the bottom and bottom horizontal portions 41 of the cabinet main body 21 and nuts 44 fastened to the bottom portions 41 of the cabinet main body 21, The transformer 10 is fixed by a bolt 45 passing through the vertical part 42 and a nut 46 fastened to the bolt 45,
A high voltage transmission line L1 connected to the primary side of the transformer 10 and a transmission line access hole 50 communicating with the transmission line protection pipe 50 for protecting the extra high voltage transmission line L2 connected to the secondary side are formed at the bottom of the cabinet body 21 23 are formed,
The transformer mounting base 30 includes a bottom 31 and an edge projection 32 upwardly projecting from an edge of the bottom 31 to correspond to the bottom of the cabinet body 21, An insertion hole 33 into which the transmission line protecting tube 50 is inserted is formed at a central portion of the portion 31,
The vertical buffering means 100 includes a vertical anchor bolt 110 buried in the bottom portion 31 of the transformer mounting base 30 and protruding upward and penetrating the bottom of the cabinet body 21, A cylindrical vertical buffering rubber tube 120 in which a vertical anchor bolt passage hole 121 through which the vertical anchor bolt passage hole 110 passes is formed and a vertical hermetically closed chamber 122 is formed around the vertical anchor bolt passage hole 121, A vertical cushion spring 130 embedded in the chamber 122, a cushioning oil 140 filled in the vertical hermetically closed chamber 122 and an upper anchor bolt 110, 21 and a vertical anchor nut 150 which is in close contact with the bottom of the upper anchor nut 150,
The first horizontal buffering means 200 includes a connection frame 400 including front, rear, left and right wall surfaces of the transformer mounting base 30 and front and rear left and right plates spaced apart from front and rear wall surfaces of the lower end portion of the cabinet body 21, A horizontal anchor bolt 210 horizontally protruding horizontally from the bottom part 31 of the connecting frame 400 and horizontally penetrating the lower half of the connecting frame 400; A first horizontal buffering rubber tube 220 having a horizontal anchor bolt passage hole 221 passing through the horizontal anchor bolt passage hole 221 and a first horizontal hermetically closed chamber 222 formed around the horizontal anchor bolt passage hole 221, A first horizontal buffering spring 230 embedded in the first horizontal hermetically closed chamber 222, a buffer oil 240 filled in the first horizontal hermetically closed chamber 222, Which is fastened to the outer end of the connection frame 400 and is in close contact with the lower end of the connection frame 400, Kerr comprising: a nut (250),
The connecting frame 400 is made of an iron plate and has a lower bent portion 410 facing the front, rear, left and right wall surfaces of the transformer mounting base 30 at the upper and lower ends thereof for reinforcing, and front and rear left and right wall surfaces of the cabinet body 21 Facing upper bent portion 420,
The second horizontal buffering means 300 includes a horizontal bolt 310 protruding through the front and rear left and right wall surfaces of the cabinet body 21 and horizontally passing through the upper half of the connection frame 400, A cylindrical second horizontal buffering rubber tube 320 having a horizontal bolt passage hole 321 through which the horizontal bolt 310 passes and a second horizontal sealing chamber 322 around the horizontal bolt passage hole 321; A second horizontal cushion spring 330 embedded in the second horizontal hermetically closed chamber 322, a buffer oil 340 filled in the second horizontal hermetically closed chamber 322, And a horizontal nut (350) fastened to an upper end of the connection frame (400) and fastened to an outer end of the connection frame (400).

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