KR101183165B1 - The case of pad mounted transformer for live line replacement work and the method of it's replacement work - Google Patents

Abstract

PURPOSE: A pad mounted transformer case for replacing a live wire and a method for replacing the case using the same are provided to replace the pad mounted transformer case without the damage to an integrally manufactured section by reusing a main body in the transformer. CONSTITUTION: A pad mounted transformer case(1) is the shape of a hollow hexahedron. The pad mounted transformer case includes a side plate(10) formed on both sides and a back plate successively installed to the side plate. A front door(30) is formed in the opposite side of the back plate. A front bottom plate(40) is formed on the lower part of the front door. An upper plate lid(50) is supported by the side plate, the back plate and the front door.

Description

Ground transformer for live ship replacement and replacement method using the same {THE CASE OF PAD MOUNTED TRANSFORMER FOR LIVE LINE REPLACEMENT WORK AND THE METHOD OF IT'S REPLACEMENT WORK}

The present invention is 10 years after the installation of the ground transformer due to pollution, humidity, salinity, chemical reactions in the atmosphere, etc. due to the corrosion of the steel enclosure, the transmission of the special high voltage to convert to low pressure life of 30 years It is shortened for a long time, and it is a factor for passing passengers or workers, and when it is new, it is accompanied by a power failure or by using an uninterruptible method with high unit cost, and a considerable budget is wasted. It is to replace the above-mentioned ground transformer enclosure and the ground transformer enclosure with excellent light weight and corrosion resistance, and the transformer body inside the ground transformer enclosure is left unchanged, and a part of the transformer body and the enclosure are manufactured in one piece. Safe replacement of the enclosure without significant damage It relates to a method.

Ground transformers installed all over the country are made of iron and coated with rust-preventive paint and paint on the surface, but the chemical effects of pollutants, rainwater or moisture, and in the case of coastal areas are high in salinity, so they are easily corroded and painted on site. Or reinforce the aesthetic sheet, but this is not a fundamental measure.

Therefore, in the present invention, the main body of the transformer is reused as it is without power failure in the field, and only the enclosure is replaced, and a certain part of the side is integrally manufactured between the main body and the enclosure in the transformer, so it is an important element to solve without damage. Power is a technology that safely replaces an enclosure while continuing to supply it.

In this regard, the 'ground transformer enclosure that can be replaced uninterrupted relocation' of the Republic of Korea Patent 10-1158542 (registration date June 14, 2012) and the Republic of Korea Patent 10-1055329 (registration date August 02, 2011) The technique of 'ground equipment inspection and repair method in live state' has been disclosed.

The above-described technologies are not disclosed about a replacement method capable of safely replacing an enclosure without greatly damaging the transformer body and a certain portion of the enclosure, which are required in the present invention. There is no disclosure of a ground transformer enclosure to improve corrosion resistance.

That is, the techniques disclosed above do not suggest a light weight, corrosion resistance characteristics of the enclosure required in the present invention, and a safe and quick replacement method for replacing the ground transformer enclosure.

Therefore, there is a need for a technology for an enclosure suitable for the ground transformer enclosure and a method for more safely and effectively replacing the ground transformer enclosure.

Republic of Korea Patent Registration 10-1158542 (Registration date June 14, 2012) Republic of Korea Patent Registration 10-1055329 (Registration Date August 02, 2011)

As described above, the present invention can solve the disadvantage of being vulnerable to the corrosion of the conventional ground transformer enclosure by providing a ground transformer enclosure for lightweight replacement and excellent corrosion resistance,

The replacement method can be replaced more effectively by leaving a part of the enclosure integrally formed with the transformer body while leaving the transformer body in the live state, and then combining and replacing the newly installed enclosure to a part of the remaining enclosure. It is an object of the present invention to provide a ground transformer enclosure for live replacement and an enclosure replacement method using the same.

To solve the above problem,

The present invention has a structure of a hexahedron, the side plate formed on both sides,

A back side plate installed continuously to the side side plate,

A front door which is continuously installed on the side plate and formed on an opposite surface of the back plate;

A front lower plate formed under the front door;

As a ground transformer enclosure consisting of a top plate lid installed on the top with the support of the side plate, the back plate, the front door,

The ground transformer enclosure is Mg 95.0 ~ 97.0wt%, Al 2.0 ~ 4.0wt%, Zn 0.1 ~ 1.0wt%, Mn 0.1 ~ 0.5wt%, Fe 0.001 ~ 0.009wt%, Si 0.01 ~ 0.05wt%, Cu 0.001 ~ It is made of magnesium alloy having a component composition of 0.009wt%, Ni 0.0001 ~ 0.001wt%,

The magnesium alloy is immersed in a solution of 60 ~ 70 ℃ mixed NaOH + Na ₃ PO ₄ in a 1: 1 weight ratio for 1 to 2 minutes to remove foreign substances on the surface of the magnesium alloy,

After homogenizing the surface of magnesium alloy by dipping 10-20 minutes in a solution of CrO ₃ + HNO ₃ + H ₃ BO ₃ at a ratio of 1: 1: 1 by weight at 20 to 25 ° C,

The ground transformer enclosure for live replacement, characterized in that the film was formed by dipping in a chemical treatment solution of 20-25 ° C. mixed with Na ₂ Cr ₂ O ₇ + HNO ₃ in a 1: 2 ratio for 10 to 20 minutes.

As a method of installing the live transformer replacement ground box,

Step (S10) for measuring the abnormality and size of the ground transformer enclosure to be replaced,

Checking the deteriorated portion of the transformer in the ground transformer enclosure to be replaced with a thermal imaging infrared camera (S11);

Separating the top cover of the ground transformer enclosure to be replaced (S12),

Installing an insulating cover on the primary and secondary terminals of the transformer (S13),

After removing the back plate of the ground transformer enclosure to be replaced, the step of installing the support under the ground transformer (S14),

Separating the front door of the ground transformer enclosure to be replaced (S15);

In order to cut the side plate of the ground transformer enclosure to be replaced, the step of installing the hacksaw cutting guide on the side plate (S16),

Cutting the side plate of the enclosure along the hacksaw cutting guide (S17) and

Painting the cut portion of the side subplate (S18);

Protecting the cut portion of the side subplate, and installing a plastic protective tube to prevent corrosion (S19);

And fastening the side subplate constituting the enclosure of the present invention to the cut portion of the side subplate and cutting the side subplate (S20);

Installing a rear subplate constituting the enclosure of the present invention (S21),

After removing the support, and installing the front lower plate constituting the enclosure of the present invention (S22),

While installing the top plate lid of the ground transformer enclosure constituting the enclosure of the present invention, the side plate, the back plate is supported by the step of installing upward (S23),

Installing the front door of the ground transformer enclosure constituting the enclosure of the present invention above the front lower plate (S24),

Separating the insulating cover installed at the primary and secondary terminals of the transformer (S25);

The main technical configuration is a method of replacing the ground transformer enclosure for live replacement, which includes a step (S26) of checking whether there is an abnormality in thermal imaging diagnosis of a transformer in the ground transformer enclosure after replacement.

Lightweight, corrosion resistance excellent ground transformer enclosure according to the present invention has the following effects.

first. Remove the corroded enclosure of the ground transformer supplying power in the field and replace it with the newly manufactured lightweight and corrosion resistant ground transformer enclosure, but replace the enclosure by reusing the inner body of the transformer. By replacing the ground transformer enclosure without significantly damaging the part made integrally between the main body and the enclosure in the transformer, it is possible to improve the functionality of the ground transformer enclosure and increase the efficiency of the replacement work.

second. Existing corroded enclosures in live condition without power failure have the advantage of being cut off on site and safely installed in place.

third. By changing from live to on-site, it saves one-third of the budget compared to the whole new method, and it can be replaced without power failure, so that the utility company can make full efforts to service customers and improve the appearance of the equipment. You can improve the image.

1 is a view showing the front of the ground transformer enclosure for live replacement according to the present invention.
Figure 2 is a view showing the side of the ground transformer enclosure for live replacement according to the present invention.
Figure 3 is a view showing the replacement process of the ground transformer enclosure for live replacement according to the present invention.
Figure 4 is a view showing the replacement process of the side plate consisting of two separate structure of the replacement process of the ground transformer enclosure for live replacement according to the present invention.
Figure 5 is a diagram illustrating the replacement process of the ground transformer enclosure for live replacement according to the present invention.

Hereinafter, a detailed description of the technical configuration will be described with reference to the accompanying drawings.

Light-weight, corrosion-resistant ground transformer enclosure according to the present invention is a stainless steel, reinforced plastic, fiber reinforced composite (Fiber Reinforced Polymer, 'FRP') or magnesium alloy surface coated with a corrosion resistant .

By using the stainless steel, reinforced plastics or FRP can increase the anti-corrosion functionality,

More preferably, a magnesium alloy in which a chemical conversion treatment film having corrosion resistance is formed on an excellent magnesium alloy such as light weight, electromagnetic shielding, and heat dissipation is used.

The magnesium alloy is high in specific strength, very excellent in the safety of dimensions, and has a minimum density in the alloy, so that it can be applied to many fields requiring weight reduction.

Since the magnesium alloy is light, it is easy to transport and work, and also by providing a ground transformer enclosure suitable for live replacement ground transformer enclosure by strengthening the corrosion resistance through the coating layer.

That is, the ground transformer enclosure for the live wire replacement is Mg 95.0 ~ 97.0wt%, Al 2.0 ~ 4.0wt%, Zn 0.1 ~ 1.0wt%, Mn 0.1 ~ 0.5wt%, Fe 0.001 ~ 0.009wt%, Si 0.01 ~ 0.05wt %, Cu 0.001 ~ 0.009wt%, Ni 0.0001 ~ 0.001wt% of a magnesium alloy having a component composition,

The magnesium alloy is immersed in a solution of 60 ~ 70 ℃ mixed NaOH + Na ₃ PO ₄ in a 1: 1 weight ratio for 1 to 2 minutes to remove foreign substances on the surface of the magnesium alloy,

After homogenizing the surface of the magnesium alloy by dipping CrO ₃ + HNO ₃ + ₃ BO ₃ in a solution of 20: 1 to 25 ° C. in a 1: 1: 1 weight ratio,

_{Na 2 Cr 2 O 7 + HNO} 3 to 1: Deposition 20 ~ 25 ℃ 10 ~ 20 minutes in a chemical conversion solution of the mixture in the ratio 2 to form a coating film.

The most widely used series of the magnesium alloy is the Mg-Al-Zn series, which adds an appropriate amount of Zn to increase the strength.

The addition of Zn increases the susceptibility to high temperature cracking during solidification, so the amount is limited to less than 1%. This series has excellent weldability and castability.

One of the biggest advantages of magnesium alloy is its light weight. Currently used magnesium alloy has a specific gravity of 1.79 ~ 1.81, which is about 30% lighter than aluminum alloy and at the same time excellent in mechanical strength. The reason why magnesium alloy can be effectively used as a structural material is because of high specific strength and specific rigidity.

Therefore, the present invention uses the above-described magnesium alloy having high strength and high strength to be suitable for use in a live transformer replacement ground transformer enclosure.

However, if the magnesium alloy is used as it is, the corrosion resistance is weak and there is a risk of corrosion, in order to enhance the corrosion resistance in the present invention, the chemical treatment coating film is formed on the surface of the magnesium alloy.

The chemical conversion treatment is a technique commonly used for painting base, component storage, and rust-preventive coating. It is a type of surface treatment method in which a film is formed by various chemical reactions between a magnesium surface and a chemical conversion treatment liquid. It can vary from several nm to several tens of nm.

The mixed solution of NaOH + Na ₃ PO ₄ is a degreasing solution for removing the foreign matter on the surface of the magnesium alloy, the ratio is excellent in the degreasing effect when using a mixture in a 1: 1 weight ratio, the temperature and time It is preferable to maintain the temperature and time within the ranges set forth above because it is difficult to expect an increase in the degreasing effect when it exceeds the ranges set out above.

The mixed solution of CrO ₃ + HNO ₃ + ₃ BO ₃ is a solution for uniformly treating the surface in order to form a uniform film on the surface of the degreasing magnesium alloy, the ratio of 1: 1: 1 The effect is increased when the weight ratio is mixed.

At this time, the temperature and the deposition time is limited to the range in which the effect of the uniform treatment can occur, and when the above range is exceeded, since the change in the effect is insignificant and meaningless, it is preferable to limit it to the above-mentioned range.

Finally, the mixed solution of Na ₂ Cr ₂ O ₇ + HNO ₃ is a solution for forming a film on the surface of the magnesium alloy, the ratio is preferably limited to 1: 2 weight ratio. This is to limit the ratio in consideration of the effective aspect that can improve the corrosion resistance according to the film formation.

In addition, the temperature and the deposition time of the mixed solution are also considered in consideration of the temperature and time that the film can be uniformly formed properly, and if the range is exceeded, the effect may be insignificant, and thus the temperature and deposition time are limited within the above range. It is desirable to.

As shown in FIGS. 1 and 2, the live transformer replacement ground enclosure 1 has a hollow hexahedron structure, and has side plate 10 formed on both sides, and the side plate 10. The rear side plate 20 which is continuously installed on the side plate 10, which is installed in succession, the front door 30 formed on the opposite surface of the rear side plate 20, and the front door 30 lower It consists of a front lower plate 40 formed on the top plate lid 50 is installed on the top receiving the support of the side plate 10, the rear plate 20, the front door 30.

At this time, the live ground replacement transformer enclosure (1) is made larger than the pre-installed old ground transformer enclosure. That is, the width is set so that the above-mentioned ground transformer enclosure (1) according to the present invention may include the ground transformer enclosure pre-installed.

The reason for making the width larger in this way is for the speed of work and the convenience of work in the process of replacing the enclosure as described below.

That is, without removing all of the side plate connected to the transformer, by leaving a portion so that the left side plate can be fastened with the newly installed side plate.

The inner width of the live transformer replacement box (1) is made 0.5 ~ 1cm larger than the outer width of the pre-installed ground transformer enclosure, more preferably 1cm wider.

Since the side plate 10 and the rear plate 20 are provided with a ventilation hole for natural ventilation cooling, the temperature inside the ground transformer enclosure 1 for the live replacement can be prevented from being increased rapidly.

Hereinafter, a method of replacing the live transformer replacement ground enclosure will be described with reference to the drawings (FIGS. 3 to 5).

As shown in FIG. 3 and FIG. 5,

The method of replacing the live transformer for the ground transformer enclosure

Step (S10) for measuring the abnormality and size of the ground transformer enclosure to be replaced,

Checking the deteriorated portion of the transformer in the ground transformer enclosure to be replaced with a thermal imaging infrared camera (S11);

Separating the top cover of the ground transformer enclosure to be replaced (S12),

Installing an insulating cover on the primary and secondary terminals of the transformer (S13),

After removing the back plate of the ground transformer enclosure to be replaced, the step of installing the support under the ground transformer (S14),

Separating the front door of the ground transformer enclosure to be replaced (S15);

In order to cut the side plate of the ground transformer enclosure to be replaced, the step of installing the hacksaw cutting guide on the side plate (S16),

Cutting the side plate of the enclosure along the hacksaw cutting guide (S17) and

Painting the cut portion of the side subplate (S18);

Protecting the cut portion of the side subplate, and installing a plastic protective tube to prevent corrosion (S19);

Step S20 and the side plate to be cut by applying the side plate 10 constituting the enclosure of the present invention to the cut portion of the side plate, and (S20),

Installing the rear subplate 20 constituting the enclosure of the present invention (S21),

After removing the support, the step of installing the front lower plate 40 constituting the enclosure of the present invention (S22),

Installing the upper plate lid 50 constituting the enclosure of the present invention, the side plate 10, the back plate 20 is supported by the step of installing upward (S23),

Installing the front door 30 constituting the enclosure of the present invention above the front lower plate 40 (S24),

Separating the insulating cover installed at the primary and secondary terminals of the transformer (S25);

And a step (S26) of checking whether there is an abnormality in the thermal imaging diagnosis of the transformer in the ground transformer enclosure after the replacement.

Steps S10 to S11 after visually observing the enclosure of the old ground transformer to be replaced to check the state of the enclosure, and then check the ground transformer inside the enclosure, the thermal image to check the abnormal parts due to overheating in addition to the cable, insulating oil This is the process of checking the deteriorated part using an infrared camera.

Steps S10 to S11 correspond to the preliminary work for replacing the ground transformer enclosure.

Considering the size of the aging ground transformer measured in step S10 to produce a ground transformer enclosure (1) for live replacement according to the present invention, the important part is the length of the inner width of the ground transformer enclosure (1) for live replacement Compared to the length of the outer width of the outer box of the aging ground transformer is installed to make 0.5 ~ 1cm larger, more preferably 1cm longer.

The reason for making the length of the inner width longer than the pre-installed ground transformer enclosure is to remove the pre-installed ground transformer enclosure, leaving a part of the side plate and adding the left side plate to the left side plate, according to the present invention. This is because the installation time can be shortened and the work can be easily progressed, thereby increasing the efficiency of the work.

The step S12 is a process of separating the top cover of the ground transformer enclosure (Fig. 3 (a)) is installed, as shown in (b) of FIG.

After removing the top cover, as shown in step S13, in order to be able to replace the ground transformer enclosure in the live state, install an insulation cover on the primary and secondary terminals of the transformer.

In this way, after the insulation cover is installed and ready to replace the ground transformer enclosure in the live state, the rear plate of the existing ground transformer enclosure is removed, and then the support neck is installed under the ground transformer. At this time, the reason for installing the support neck is to prevent the ground transformer from falling down (Fig. 3 (c) and (d)).

Then, the front door of the ground transformer enclosure to be replaced is removed. (S15) (FIG. 3E)

As described above, after removing the front and rear subplates, the side plate of the ground transformer enclosure is removed. In this case, it is important to remove only some of the side subplates.

As in the steps S16 and S17, in order to remove a part of the side plate of the ground transformer enclosure, a hacksaw cutting guide is installed on the side plate to determine the part to be cut accurately, and then cut using the hacksaw. (f) and (g))

The reason for cutting and leaving only a part of the side plate is to install the side plate of the ground transformer enclosure of the present invention in addition to the side plate left by the cut.

The side plate that is cut out and the side plate that is newly installed are formed by bolt and nut coupling (FIG. 3 (j)).

After cutting the side plate as described above, the paint is painted as suggested in step S18, and the paint is painted in the same or similar color as the color of the newly installed enclosure as much as possible (step S19) (Fig. 3 (h)).

After painting, the plastic protective tube is installed to cover the cutting surface to protect the cutting surface and prevent corrosion. (Step S20) (Fig. 3 (i))

Next, the side plate of the cut-out and the side plate of the newly installed enclosure is fastened by coupling means such as bolts and nuts.

As shown in (j, k) of Figure 3, the side plate of the newly installed enclosure is not a single plate but consists of two separate plates.

In addition, since both ends of the two independent side plate plates are formed in a bending structure, the left side plate and the two side plate plates newly installed can be fastened by a coupling means such as bolts and nuts at once.

By this fastening structure, the side plate can be installed quickly, and also the replacement of the ground transformer enclosure can be made quickly in view of the entire enclosure replacement process.

Next, in order, the front lower plate, the upper plate, and the rear subplate are sequentially installed. ((L ~ n) of FIG. 3) After all of the upper plate is installed, the front door of the ground transformer enclosure is finally installed. (O) of FIG. 3 (steps S21 to S24)

Then, finally removing the insulating cover installed in the primary and secondary terminals of the transformer (S25), and if the thermal imaging diagnosis abnormality of the transformer in the replaced ground transformer enclosure is checked (S26), according to the present invention The installation of the ground transformer enclosure is completed (Fig. 3 (k)).

Since the ground transformer replacement enclosure according to the present invention is light in weight and strong in corrosion resistance, construction property, product stability, and reliability are higher than those of a conventional transformer, and thus, the industrial transformer can be used as a substitute for an existing transformer enclosure.

1: Live transformer replacement enclosure
10: side plate
20: back plate
30: front door
40: front lower plate
50: top cover

Claims (6)

As having a hexahedral structure, the side plate 10 formed on both sides,
A rear side plate 20 which is continuously installed on the side plate 10,
A front door 30 which is continuously installed on the side plate 10 and formed on an opposite surface of the back plate 20;
A front lower plate 40 formed below the front door 30;
As a ground transformer enclosure made of a top plate lid 50 installed at the top with support of the side plate 10, the back plate 20, the front door 30,
The ground transformer enclosure is Mg 95.0 ~ 97.0wt%, Al 2.0 ~ 4.0wt%, Zn 0.1 ~ 1.0wt%, Mn 0.1 ~ 0.5wt%, Fe 0.001 ~ 0.009wt%, Si 0.01 ~ 0.05wt%, Cu 0.001 ~ It is made of magnesium alloy having a component composition of 0.009wt%, Ni 0.0001 ~ 0.001wt%,
The magnesium alloy is immersed in a solution of 60 ~ 70 ℃ mixed NaOH + Na ₃ PO ₄ in a 1: 1 weight ratio for 1 to 2 minutes to remove foreign substances on the surface of the magnesium alloy,
After homogenizing the surface of magnesium alloy by dipping 10-20 minutes in a solution of CrO ₃ + HNO ₃ + H ₃ BO ₃ at a ratio of 1: 1: 1 by weight at 20 to 25 ° C,
A ground transformer enclosure for a live wire replacement, characterized in that a film is formed by dipping for 10 to 20 minutes in a 20 to 25 ° C chemical conversion solution containing Na ₂ Cr ₂ O ₇ + HNO ₃ in a 1: 2 ratio.
The method according to claim 1,
The ground transformer enclosure is made of one or more materials selected from stainless steel, reinforced plastic, and fiber reinforced composite material (FRP).
The method according to claim 1,
The ground transformer enclosure is a ground transformer enclosure for live replacement, characterized in that 0.5 ~ 1cm larger than the width of the installed ground transformer enclosure.
The method according to claim 1,
The side plate 10 is made of two sub-plates for the live transformer replacement ground transformer enclosure, characterized in that configured to be coupled to the side and bolts, nuts of the pre-installed ground transformer enclosure.
The method according to claim 1,
Side plate 10 and the back plate 20 is a live transformer replacement ground transformer, characterized in that the ventilation vent for natural ventilation is installed. Step (S10) for measuring the abnormality and size of the ground transformer enclosure to be replaced,
Checking the deteriorated portion of the transformer in the ground transformer enclosure to be replaced with a thermal imaging infrared camera (S11);
Separating the top cover of the ground transformer enclosure to be replaced (S12),
Installing an insulating cover on the primary and secondary terminals of the transformer (S13),
After removing the back plate of the ground transformer enclosure to be replaced, the step of installing the support under the ground transformer (S14),
Separating the front door of the ground transformer enclosure to be replaced (S15);
In order to cut the side plate of the ground transformer enclosure to be replaced, the step of installing the hacksaw cutting guide on the side plate (S16),
Cutting the side plate of the enclosure along the hacksaw cutting guide (S17) and
Painting the cut portion of the side subplate (S18);
Protecting the cut portion of the side subplate, and installing a plastic protective tube to prevent corrosion (S19);
And attaching the side subplate 10 of claim 1 to the cut portion of the side subplate and fastening the cut side plate to the side subplate (S20);
Installing the rear subplate 20 of claim 1 (S21),
After removing the support, step (S22) for installing the front lower plate 40 of claim 1,
Installing the upper plate lid 50 of the ground transformer enclosure of claim 1, wherein the side subplate 10, the rear subplate 20 is supported and installed upward (S23),
Installing the front door 30 of the ground transformer enclosure of claim 1 above the front lower plate 40 (S24),
Separating the insulating cover installed at the primary and secondary terminals of the transformer (S25);
Method of replacing the ground transformer enclosure for live replacement, characterized in that it comprises the step (S26) of checking the presence or absence of thermal imaging diagnosis abnormality of the transformer in the ground transformer enclosure after replacement.

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