KR20110012438A - A pressure control apparatus for transformer - Google Patents

Abstract

PURPOSE: A pressure control apparatus for transformer is provided to obtain cooling effect and increase the efficiency of pressure control by controlling the pressure inside the transformer by distinguishing the air path of input and output air. CONSTITUTION: A connection pipe(110) inhales or discharges the external air according to the change of the internal pressure of the transformer. A body(120) stores the air inhaled through the connection pipe. A pressure control bag(140) is arranged in an air layer in order to be contract or expand according to the change of the pressure inside the transformer.

Description

A Pressure Control Apparatus For Transformer

The present invention relates to a pressure regulating device for adjusting the internal pressure of the transformer, and more particularly, by dividing the passage of air flowing into the pressure regulating bag to adjust the pressure inside the transformer to increase the efficiency of the pressure control and at the same time the cooling effect It relates to a pressure regulator for a transformer to obtain.

In general, a transformer is a core device that supplies electricity to a factory or residential complex by converting the high voltage sent from the substation into a low voltage by the electromagnetic induction action of the iron core and the winding.

These transformers are consumer-type devices that directly supply power to end customers, so they are installed in power poles near the residential area, filled with insulating oil inside, and formed with an air layer on top.

In the insulating oil, the volume of the insulating oil increases by 0.08% when the temperature rises by 1 ° C, and when the temperature decreases, the volume of the insulating oil decreases.

In particular, when the external temperature rises to 40 ° C or the load of the transformer is high in summer, when the heat generated from the transformer winding and iron core is over 75 ° C due to overload, the transformer insulating oil is affected by the temperature and the volume increases. As a result, the air layer pressure inside the column transformer increases and is released to the outside through the pressure relief valve.

On the contrary, when the outside temperature is lowered below -5 ° C in winter, the insulating oil decreases in volume due to the temperature, which reduces the air pressure inside the column transformer, but the outside air flows inward from the pressure reducing valve. There is a problem that the air layer inside the transformer is in a vacuum state and the external air containing moisture penetrates into the transformer and causes oxidation with the insulating oil, thereby destroying the insulating oil.

The present invention is to solve the above problems, to provide a pressure regulator for a transformer that can automatically adjust the pressure in the transformer by using a pressure control bag that expands or contracts when the pressure changes in the transformer.

In addition, the present invention is to provide a pressure regulator for a transformer that can efficiently flow, flow in and out by providing a separate air passage pipe to distinguish the passage of the air flow into, out of the pressure control bag.

In addition, the present invention is to provide a pressure regulating device for a transformer that can quickly cool the temperature inside the transformer by arranging the pressure regulating bag not to be impregnated in the insulating oil and having a cylinder in which air is stored.

In order to achieve the above object, the present invention provides a device for adjusting the pressure of a transformer filled with insulating oil therein so that an air layer is formed on the upper portion, connecting pipes through which external air flows in and out through an external plug provided at one end thereof. ; An inner space having an internal space communicating with the connection pipe and having first and second through-holes formed at an upper portion thereof and disposed inside the transformer such that the lower portion is impregnated with the insulating oil; A pressure regulating pouch communicated with the cylinder via the first and second connection parts connected to the first and second through holes and disposed in the air layer so as to contract or expand according to a pressure change in the transformer; An air passage tube having one side inserted into the connection pipe and the other side communicating with the second connection portion; And first and second opening and closing means having one direction with respect to a flow direction of air at one end of the first and second connecting portions.

Preferably, the cylinder may be made of a metal material having high thermal conductivity.

Preferably, the cylinder may be formed in a sealed structure so that the internal space is blocked from the air layer and insulating oil of the transformer.

Preferably, the first and second opening and closing means may be provided so that one side is fixed to one end of the first and second connecting portions and the other side can be opened and closed according to the flow of air.

Preferably, the first opening and closing means is provided so that air can be introduced into the inside of the air bag, the second opening and closing means may be provided in a direction to block the inflow of air into the inside of the air bag. .

According to the present invention as described above, by using a pressure control bag that expands or contracts when the pressure changes inside the transformer by automatically adjusting the pressure inside the transformer to prevent a sudden pressure change in the transformer can prevent the burnout of the transformer It works.

In addition, the present invention has the effect of distinguishing the passage of the air flowing in and out of the pressure control bag, and by providing a separate air passage pipe to efficiently flow in and out of the air.

In addition, the present invention has the effect of reducing the maintenance cost by increasing the life of the pressure regulator by arranging the pressure regulating bag not to be impregnated in the insulating oil.

In addition, the present invention has an effect that can prevent the failure and overheating of the transformer by quickly cooling the temperature inside the transformer by having a cylinder in which air is stored.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the drawings. In the following description, the same reference numerals will be used to refer to the same elements even though they are shown in different drawings in order to add reference numerals for understanding the invention.

1 is a perspective view of a pressure regulator for a transformer according to the present invention, Figure 2 is an exploded perspective view of the pressure regulator for a transformer according to the present invention, Figure 3 is a pressure control for a transformer according to the present invention when the internal pressure of the transformer changes Figure 4 is a schematic diagram showing the operating state of the device, Figure 4 schematically shows the operating state of the first and second opening and closing means when the internal pressure fluctuation of the transformer, Figure 5 is a pressure regulation for the transformer of the present invention when the internal pressure of the transformer changes Schematic diagram showing the air flow in the device.

The pressure regulator 100 for a transformer according to the preferred embodiment of the present invention is connected to a conventional transformer in which an air layer 15 is formed at an upper portion and an insulating oil 20 is filled at a lower portion of the transformer. By controlling the pressure inside to guide the entrance, the connection pipe 110, the cylinder 120, pressure control bag 140, air passage pipe 150 and the first and second opening and closing means (160a, 160b) do.

The connecting pipe 110 serves as a passage through which the outside air flows in and out of the pressure control device 100 according to the pressure change in the transformer, and is provided with a hollow tube having a predetermined length and one end of the transformer 10. The other end is inserted into the coupling hole 25 and the other end is connected to the upper portion of the cylinder 120 to allow the outside air to flow into and out of the cylinder 120.

At this time, one end of the connection pipe 110 is inserted and coupled to the coupling hole 25 to prevent the penetration of moisture or insects, such as rainwater into the pressure control device 100 and the outside air pressure control device An external stopper 170 having a small hole or a net is formed in the central area so as to flow into and out of the 100.

The cylinder 120 serves to provide air to the pressure control bag 140 when the air flowing through the connection pipe 110 is stored and the internal pressure is changed, and the internal space in which the air is stored (S). ) Is provided in the shape of a housing provided.

And the upper portion is provided with a coupling pipe 122 is formed to protrude is coupled to one end of the connection pipe 110 is fixedly installed in the transformer 10. At this time, the position where the cylinder 120 is installed is installed so that the lower part is impregnated in the insulating oil 20 filled in the transformer.

That is, the upper part of the cylinder 120 is to be located in the air layer 15 inside the transformer, and the lower part is to be located in the insulating oil 20 inside the transformer. As such, the cylinder 120 is fixedly installed in the transformer 10, so that the temperature of the insulating oil 20 generated when the outside air temperature changes or the load of the transformer changes can be transmitted to the cylinder 120.

In this case, the cylinder 120 is preferably manufactured by using a metal material having high thermal conductivity such as copper or aluminum, so that an immediate temperature change may occur according to a temperature change of the insulating oil 20.

In addition, the cylinder 120 is formed with a sealed structure such that the air layer 15 and the insulating oil 20 and the inner space S in which the outside air is stored in the transformer 10 are sealed to each other, thereby insulating oil 20. When the temperature changes, it is desirable to allow the temperature change to occur with the air stored in the internal space (S).

On the other hand, a portion of the cylindrical body 120 disposed in the air layer 15 is provided with first and second through-holes 124a and 124b formed to communicate with the internal space S, so that the first and second connecting portions 130a, 130b) can be inserted. Although the first and second through holes 124a and 124b may be provided on the side of the cylinder 120, the pressure regulating bag 140 connected to the other ends of the first and second connection parts 130a and 130b may be a cylinder ( It is preferable that it is formed in the upper surface of the cylinder body 120 so that it can be arranged in the upper portion.

The first and second connectors 130a and 130b serve as a passage for allowing the flow of air by connecting the interior of the pressure regulating bag 140 and the inner space S of the cylinder to each other. The first and second through holes 124a and 124b are inserted and welded to each other, and the other end is connected to one side of the pressure control bag 140 to be welded and fixed.

On the other hand, the first and the second connection portion (130a, 130b) and the tube 120 and the pressure control bag 140 has been described as welding by fixing, but not limited to this, the first and second connection portion (130a, 130b) Threads are formed at both ends of the) and the threads 120 corresponding to the tubular body 120 and the pressure control bag 140 may be connected to each other by screwing.

As such, when connecting the first and second connectors 130a and 130b to the cylinder 120 and the pressure regulating bag 140 through screwing, air leaks from the joint by using an airtight member such as an O-ring at the joint. It is desirable to prevent that.

At this time, one end of the first and second connectors 130a and 130b is provided with first and second opening and closing means 160a and 160b which can be opened and closed only in one direction with respect to the flow direction of air, respectively. It is preferable.

That is, the first connection portion 130a is provided with a first opening and closing means 160a so that one end is fixed to one end connected to the pressure control bag 140 and the other end can be opened and closed by air pressure. It is possible to move the air from the (S) to the pressure control bag 140 and the air from the pressure control bag 140 to the internal space (S) side is provided to block.

The second opening and closing means 130 may be fixed to one end connected to the inner space S of the cylinder, and the other end may be opened and closed by the pressure of air, as opposed to the first opening and closing means 160a. 160b) is provided to allow the air to move from the pressure control bag 140 to the inner space (S) side of the cylinder and to block the movement of air from the inner space (S) to the pressure control bag 140 side. do.

Such first and second opening and closing means (160a, 160b) is formed of a thin film film of PVC material, it is preferable that one side is attached to one end of the first, second connecting portion (130a, 130b) via an adhesive.

The pressure regulating bag 140 is disposed so as to be positioned in the upper portion of the cylinder 120 and the air layer 15 of the transformer 10 through the first and second connecting portions 130a and 130b. It is provided to be connected with. Such a pressure control bag 140 is made of a rubber material so as to contract or expand in accordance with the pressure change in the transformer.

As such, the pressure regulating bag 140 is disposed above the cylinder 120 so as not to be impregnated with the insulating oil 20, thereby preventing corrosion by the insulating oil 20, thereby increasing the life of the pressure regulating bag 140 and insulating oil 20. ) Can be prevented from being contaminated by corrosion.

On the other hand, between one end of the second connecting portion 130b and the outer stopper 170, the air passage pipe 150 is provided so that one side is disposed in the inner space (S) is the inside of the pressure control bag 140 It is preferable to be in communication with the outside through the air passage pipe 150.

As such, the air passage pipe 150 is provided to be connected to the external plug 170 through the interior space S from one end of the second connection part 130b and through the interior of the connection pipe 110 to thereby provide a pressure inside the transformer. If this is increased, the air existing in the pressure control bag 140 is to be discharged to the outside through the air passage pipe 150.

At this time, as described above, the second opening and closing means 160b is provided at one end of the second connection portion 130b to allow the outside air to flow into the pressure control bag 140 through the air passage pipe 150. Will be blocked.

The air passage pipe 150 is preferably provided to be fit or screwed with the second connection portion 130b to prevent the air from leaking through the connection portion. And the portion inserted into the connection pipe 110 is preferably provided with a support 112 so that the inner circumferential surface of the air passage pipe 150 and the connection pipe 110 can maintain a distance from each other.

An operating state of the pressure regulator 100 for a transformer according to the preferred embodiment of the present invention as described above will be described with reference to FIGS. 3 and 5.

The pressure regulating device 100 of the present invention is initially maintained in a normal state as shown in FIG. 3A. When the temperature inside the transformer is increased, the temperature of the insulating oil 20 is increased to increase the volume of the insulating oil, thereby increasing the pressure of the air layer 15 positioned at the upper portion thereof. When the pressure of the air layer 15 increases, the pressure regulating bag 140 is contracted by the increased pressure to automatically adjust the pressure of the transformer outside and inside.

At this time, the temperature of the insulating oil 20 also rises due to the temperature increase inside the transformer, and the elevated temperature is transmitted to the tubular body 120 having high thermal conductivity, and the temperature of the air stored in the internal space S is also increased. The temperature of the air present in the bag 140 is also increased. Hot air in the pressure control bag 140 is directly discharged to the outside through the air passage pipe 150 when the pressure control bag 140 contracts. And the air covered in the inner space (S) of the cylinder is discharged to the outside through the connection pipe (110).

As the hot air inside the pressure regulating device 100 is discharged to the outside through the connection pipe 110 and the air passage pipe 150 as shown in FIG. 5A, heat is also discharged together with the temperature and the insulating oil inside the transformer 10. The temperature of 20) is cooled down.

Figure 6 shows the change in temperature inside the transformer by the pressure regulator 100 of the present invention after the heater is installed in a model transformer filled with insulating oil and heated to 90 ° C, the rising temperature of the general transformer.

Referring to Figure 6 it can be seen that the temperature inside the transformer is cooled by about 5 ° C within three minutes.

On the other hand, when the air of the pressure regulator 100 is discharged to the outside due to the contraction of the pressure regulating bag 140 and the temperature of the insulating oil 20 is cooled, the volume of the insulating oil 20 is reduced to reduce the pressure inside the transformer 10. This decreases due to the pressure control bag 140 is expanded again as shown in Figure 3c.

At this time, the external cold air is introduced into the cylinder 120 through the space between the connecting pipe 110 and the air passage pipe 150 as shown in Figure 5b and the pressure control bag through the first connecting portion (130a) Will also flow into the (140) side.

At this time, the cold air introduced into the internal space (S) cools the cylinder (120) and the cylinder (120) is the air layer (15) and the insulating oil (20) through heat exchange with the air layer (15) and the insulating oil (20) inside the transformer. By cooling the pressure control bag 140 is returned to the normal state to adjust the pressure inside the transformer 10.

As described above, the pressure regulator 100 for transformer of the present invention allows air to flow into the pressure regulating bag 140 through the first connection part 130a, and the pressure regulating bag 140 through the air passage pipe 150. By separating the air to be drawn from the outside to the outside, there is an effect that the pressure can be more efficiently controlled when the pressure changes inside the transformer according to the temperature change.

In addition, by distinguishing a passage through which air is introduced into the pressure regulating device 100 and a passage through which the air flows out, the insulating oil 20 is cooled more rapidly when the temperature of the transformer 10 rises, thereby preventing failure and overheating of the transformer 10. It is effective in preventing accidents.

In addition, by automatically adjusting the pressure inside the transformer by using a pressure control bag that expands or contracts when the pressure inside the transformer changes, there is an effect of preventing a sudden pressure change in the transformer to prevent burnout of the transformer.

In addition, the present invention is to distinguish the passage of the air flowing in and out of the pressure control bag, and by providing a separate air passage pipe can efficiently flow, flow in and out, so that the pressure control bag is not impregnated in the insulating oil By increasing the life of the pressure regulator, there is an effect that can reduce the maintenance cost.

Although the present invention has been described in detail with reference to the accompanying drawings, the present invention is not limited to this specific structure. Those skilled in the art will be able to variously modify or change the embodiments of the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. However, it will be apparent in advance that modifications or design variations of such a simple embodiment are all within the scope of the present invention.

1 is a perspective view of a pressure regulator for a transformer according to the present invention.

Figure 2 is an exploded perspective view of the pressure regulator for a transformer according to the present invention.

Figure 3 is a schematic diagram showing the operating state of the pressure regulator for a transformer according to the present invention when the internal pressure fluctuation of the transformer.

Figure 4 schematically shows the operating state of the first and second opening and closing means when the internal pressure fluctuation of the transformer.

Figure 5 is a schematic diagram showing the air flow of the pressure regulator for a transformer of the present invention when the internal pressure fluctuation of the transformer.

Figure 6 is a view showing the temperature change inside the transformer by the pressure regulator of the present invention.

-Explanation of symbols for the main parts of the drawings

10: transformer 15: air layer

20: insulating oil 25: coupling hole

100: pressure regulator for transformer 110: connection piping

112: support 120: cylinder

122: coupling pipe 124a, 124b: first and second through holes

S: Internal space 130a, 130b: First and second connection part

140: pressure control bag 150: air passage pipe

160a, 160b: first and second opening and closing means 170: external plug

Claims (5)

In the device for adjusting the pressure of the transformer filled with the insulating oil so that the air layer is formed on the top, A connection pipe through which an external air flows in and out through an external plug provided at one end; An inner space having an internal space communicating with the connection pipe and having first and second through-holes formed at an upper portion thereof and disposed inside the transformer such that the lower portion is impregnated with the insulating oil; A pressure regulating pouch communicated with the cylinder via the first and second connection parts connected to the first and second through holes and disposed in the air layer so as to contract or expand according to a pressure change in the transformer; An air passage tube having one side inserted into the connection pipe and the other side communicating with the second connection portion; And And first and second opening and closing means having one direction with respect to the flow direction of air at one end of the first and second connection parts. The method of claim 1, The cylinder is a pressure regulator for a transformer, characterized in that made of a metal material with high thermal conductivity. The method of claim 1, The cylinder is a pressure regulating device for a transformer, characterized in that the inner space is made of a sealed structure so as to block the air layer and insulating oil of the transformer. The method of claim 1, The first and second opening and closing means is a pressure regulator for a transformer, characterized in that the one side is fixed to one end of the first, second connection portion and the other side is provided to be opened and closed in accordance with the flow of air. The method of claim 4, wherein The first opening and closing means is provided so that air can be introduced into the inside of the air bag, and the second opening and closing means is provided for the direction of blocking the inflow of air into the inside of the air bag Pressure regulator.

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