KR20100061223A - Transformer vault system having apparatus for floating air inlet hose - Google Patents

Abstract

PURPOSE: A transformer facility system is provided to prevent the entry of water to a compressed air supply unit by floating the upper side of an air suction hose on water. CONSTITUTION: One end of an air suction hose is connected to a compressed air supply unit. The air suction hose supplies external air to the compressed air supply unit. An air suction hose floating unit(500) floats the other end of the air suction hose on the water. The air suction hose includes a floater(510), a guide wall, and a cap(530). The floater is combined with the other end of the air suction hose. The guide wall surrounds the combination part of the air suction hose. The cap covers the upper side of the guide wall.

Description

Transformer vault system having apparatus for floating air inlet hose

The present invention relates to a water substation installation system configured to prevent water from flowing into the compressed air supply means by floating an upper end of an air suction hose for supplying external air to the compressed air supply means.

In recent years, underground construction projects have been underway to bury transformers, related water transformers, and electric wires installed in the air in the basement of electric poles and electric poles installed at the top of the poles in consideration of city aesthetics and safety.

However, water substation systems, such as ground or underground installation transformers and breakers, are fatal to flooding.

And in addition to electrical accidents during flooding, the substation system entails enormous manpower and economic losses to recover from flooding, as well as secondary losses due to power outages during recovery.

In order to solve this problem, when water is introduced into the water transformer case, it is configured to discharge the water introduced into the water transformer case to the outside by supplying high pressure compressed air into the water transformer case. A water substation facility system has been proposed.

Hereinafter, a conventional water substation facility system will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view of a conventional water substation facility system, and FIGS. 2 to 4 are cross-sectional views of a conventional water substation facility system showing an operation of a water level detection unit according to a water level.

In the conventional water substation installation system, an inner space is provided and a box-shaped outer housing 1 having an upper side and one side open, a housing cover 2 covering an upper opening of the outer housing 1, and the outer side. Housing door (3) for opening and closing one side opening of the housing (1), and a water transformer for transforming the power supply is supplied therein, the water transformer case 100 is provided with a control panel 110 on the outer surface And a cover 200 covering the control panel 110 and having a transparent window on the front surface thereof so as to provide a space apart from one surface of the water transformer unit case 100 on which the control panel 110 is provided. It is configured to be wrapped by the compressed air supply means case 4 formed on the bottom surface of the housing cover 2 to compress the space between the control panel 110 and the cover 200 and into the compressed air supply means case 4. Compressed air supply means 300 for supplying air, and It is configured to include a water level detecting unit 400 for detecting how much the water transformer case 100 and the compressed air supply means 300 is flooded.

The water transformer case 100 is preferably configured to be completely enclosed in order to completely prevent flooding of the water transformer, but various switches and outputs to operate the water transformer and to view the operation state of the water transformer. Part of the window is installed, that is, the control panel 110 can be minutely formed a gap. That is, when the water transformer unit 100 is immersed in water, water does not leak into the top, bottom, left and right sides of the water transformer unit case 100, the water through the front panel is provided with a control panel 110 This leaks in.

Therefore, the compressed air supply means 300, the top and bottom, left and right and rear of the water transformer case 100 is not leaking well, do not inject compressed air, the water transformer case is well leaking water ( It is configured to inject the compressed air only to the front surface of the 100, that is, the surface provided with the control panel 110.

As illustrated in FIG. 2, the water level detecting unit 400 may include a space between the control panel 110 and the cover 200 to detect water flowing into the space where the water transformer is located. Compressed air supply means 300 is provided in each of the points that can sense the inflow of water into the space, that is, the compressed air supply means case (4). This is to prevent both the submerged electric transformer and the compressed air supply means 300 from being submerged. Of course, the water level detection unit 400 may be provided only at any one of the two points.

As shown in FIG. 2, in the state in which no water is introduced into the water substation facility system, the two water level detection units 400 positioned on the upper side and the lower side close the compressed air discharge line, and as shown in FIG. 3. When water is introduced into the water substation facility system and the water level rises up to the water level detection unit 400 located below, the water level detection unit 400 located below detects this by the compressed air supply means 300. The compressed air discharge line is opened so that the compressed air is supplied between the control panel 110 and the cover 200. When compressed air is supplied to the space between the control panel 110 and the cover 200 as described above, the water introduced into the space between the control panel 110 and the cover 200 has a water level sensing unit having a lower water level ( Until it is lower than 400).

In addition, when more water is introduced into the water substation facility system than the state shown in FIG. 3 and the water level rises up to the water level detecting unit 400 located at the upper side as shown in FIG. The float 430 of the water level detection unit 400 is all floated, the compressed air supplied by the compressed air supply means 300 and the space between the control panel 110 and the cover 200 and the compressed air supply means All are supplied into the case 4.

Therefore, even if the entire water substation installation system is submerged, the space level between the control panel 110 and the cover 200 and the level inside the compressed air supply means case 4 do not rise above the level shown in FIG. 9. Therefore, both the water transformer and the compressed air supply means 300 mounted in the water transformer case 100 are not flooded.

In the conventional water substation installation system configured as described above, an air inlet for supplying air to the compressed air supply means is typically formed in the housing cover. When the housing cover is flooded, the air is supplied to the compressed air supply means. However, water is sucked into the water submerged in the submerged device has a problem that is rather severe.

The present invention has been proposed to solve the above problems, by floating the top of the air suction hose for supplying the external air to the compressed air supply means over the water, so that the water does not flow into the compressed air supply means The purpose is to provide a water substation facility system.

Water substation facility system according to the present invention,

In a water substation installation system having a compressed air supply means for injecting compressed air into the space where water is introduced,

An air suction hose having a ductility so as to be wound and unrolled, and one end of which is in communication with the compressed air supply means and supplies external air to the compressed air supply means; And

An air suction hose floating means coupled to the other end of the air suction hose to float the other end of the air suction hose onto the water surface when flooded;

.

The air suction hose floating means,

It includes a floating body to which the other end of the air suction hose is coupled, a guide wall extending upward to surround the portion of the upper surface of the floating air coupled hose is coupled, and a cap covering the upper portion of the guide wall .

The floating body has an air suction hose fastening tube into which the other end of the air suction hose is inserted upward.

A drain hole is formed below the guide wall.

The cap is fastened by fastening pins so that the inner surface of the side wall is spaced apart from the outer surface of the guide wall.

The compressed air supply means includes an outer housing and a housing cover coupled therein,

The air suction hose floating means, the air suction hose and the air suction hose floating means is formed in an open shape so that the seat is mounted, the mounting portion is further coupled to the upper surface of the housing cover.

In the water substation installation system according to the present invention, even if the compressed air supply means is flooded, since the air suction end of the air suction hose for supplying the external air to the compressed air supply means is suspended above the water surface, water is introduced into the compressed air supply means. It has the advantage of not being.

Hereinafter, an embodiment of a water substation facility system according to the present invention will be described in detail with reference to the accompanying drawings.

5 is a cross-sectional view showing the internal configuration of the water substation installation system according to the present invention, Figures 6 and 7 are an exploded perspective view and a partially cut perspective view of the air suction hose floating means included in the water substation installation system according to the present invention. .

The water substation facility system according to the present invention is one of the water substation facility systems having compressed air supply means for injecting compressed air into a space into which water is introduced. The water transformer is installed therein and the control panel 110 is provided on one surface. 1, a cover 200 which is coupled to cover a surface on which the control panel 110 is located, and a control panel (see FIG. 1). Compressed air supply means 300 for supplying the compressed air between the 110 and the cover 200, and the water level between the control panel 110 and the cover 200 detects the water level is compressed when the water level is higher than the set height The water level detection unit 400 for opening the compressed air discharge line 310 is discharged air and has a ductility so as to be wound and unfolded, one end is communicated to the compressed air supply means to supply external air to the compressed air supply means Air suction Switch is configured, including 320 and the air intake hose 320, the air intake hose floating means 500 is coupled to the other end, when submerged float to the surface of the other end of the air intake hose 320 of the.

The water transformer unit 100 is installed in the inner space formed by the outer housing 1 and the housing cover 2, as shown in Figure 5, the compressed air supply means 300 is the bottom surface of the housing cover (2) It is isolated by the compressed air supply means case (4) provided in the.

When water flows between the control panel 110 and the cover, the water level detector 400 detects this and opens the compressed air discharge line 310 to supply high-pressure compressed air to the space between the control panel 110 and the cover. Be sure to As such, when high-pressure compressed air is supplied to the space between the control panel 110 and the cover, water no longer flows into the space between the control panel 110 and the cover. The water level detection unit 400 is not limited to the mechanical structure having a knitting or electronic structure having a water level sensor as shown in the present embodiment, it is possible to open the compressed air discharge line 310 by detecting the water level The structure may be composed of any structure.

At this time, the outer housing (1), the housing cover (2), the compressed air supply means case (4), the electric transformer case 100, the cover 200, the compressed air supply means (300), the water level detection unit (400) Since the same is also provided in the conventional water-station equipment system, detailed description thereof will be omitted. That is, in the water substation installation system according to the present invention, when the compressed air supply means 300 is flooded, the other end of the air suction hose 320 for supplying the external air to the compressed air supply means 300, that is, the air suction end The air suction hose floating means 500 has the greatest feature to float on the water surface, the configuration and operation of the air suction hose floating means 500 will be described in detail below.

The air suction hose floating means 500 is configured to include a float 510 to which the other end (air suction end) of the air suction hose 320 is coupled. The floating body 510 is made of a material having a specific gravity smaller than water such as styrofoam. When the entire outer housing 1 and the housing cover 2 are flooded, the floating body 510 floats on the water surface and pulls the other end of the air suction hose 320. Go up so that the other end of the air suction hose 320 is not submerged. In addition, the air suction hose fastening tube 512 is provided at the center of the floating body 510 so that the other end of the air suction hose 320 is more stably coupled.

When the other end of the air suction hose 320 is in the upper direction of the rain or wave, water may flow through the other end of the air suction hose 320, the air suction hose floating means 500 is The upper surface of the floating body 510 is preferably configured to include a guide wall 520 extending upward to surround the combined portion of the air suction hose, and a cap 530 covering the upper portion of the guide wall 520. . As such, when the guide wall 520 and the cap 530 are provided, water does not enter the other end of the air suction hose 320 even if it rains or waves, so that water may flow into the compressed air supply means 300. There is no concern.

At this time, when the side wall of the cap 530 and the guide wall 520 is completely in contact with each other, there is no possibility that water enters the other end of the air suction hose 320, but external air cannot be sucked into the air suction pipe. The cap 530 may be coupled to the inner surface of the side wall so as to be spaced apart from the outer surface of the guide wall 520.

In this embodiment, only the structure in which the cap 530 is coupled by the fastening pin 540, but the cap 530 and the guide wall 520 may be coupled by any coupling means other than the fastening pin 540. Can be.

In addition, even though the guide wall 520 and the cap 530 are provided around the air suction hose fastening pipe 512, the other end of the air suction hose 320 through the space between the side wall of the cap 530 and the guide wall 520. Water may flow into the combined portion, that is, the guide wall 520, but if the inside of the guide wall 520 is completely filled with water, the water may flow into the other end of the air suction hose 320. Therefore, the drain port 522 is preferably formed at the lower side of the guide wall 520 so that water does not accumulate inside the guide wall 520.

In addition, if the air suction hose 320 and the air suction hose floating means 500 is simply stored on the upper surface of the housing cover 2, the air suction hose 320 and when the wind blowing or external force is applied The air suction hose floating means 500 may fall down and be damaged or damaged.

In order to solve this problem, the air suction hose floating means 500 further includes a seating portion 550 coupled to the upper surface of the housing cover. The seating portion 550 may be formed to have an inner space that is open on the upper side so that the air suction hose 320 may be wound and stored, and the air suction hose floating means 500 may be seated therein.

Therefore, the air suction hose 320 and the air suction hose floating means 500 is usually stored in the seating portion 550, when the floating body 510 is submerged to the water level where the floating body 510 is floating. The buoyancy is drawn out of the seating portion 550 and floated on the surface of the water.

8 is a cross-sectional view showing an operation example of the water substation facility system according to the present invention.

When not only the outer housing 1 and the housing cover 2 but also submerged to the point where the floating body 510 is located, as shown in Figure 8 the floating body 510 is floated on the water surface by buoyancy. At this time, the air suction hose 320 is made of a soft material such as rubber or synthetic resin and the other end is coupled to the floating body 510, the air suction hose (510) as the floating body 510 rises above the water surface ( 320 is wound on the seating portion 550 and the other part is floated vertically while the other end floats on the surface of the water.

That is, when the water substation facility system according to the present invention is used, the other end of the air suction hose 320 is positioned above the water regardless of the depth of immersion, so that water does not flow into the air suction hose 320 and only external air is provided. When the water is introduced into the compressed air supply means, the compressed air supply means is not damaged.

As mentioned above, although this invention was demonstrated in detail using the preferable embodiment, the scope of the present invention is not limited to a specific embodiment, Comprising: It should be interpreted by the attached Claim. In addition, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

1 is an exploded perspective view of a conventional water substation facility system.

2 to 4 are sectional views of a conventional water substation facility system showing the operation of the water level detection unit according to the water level.

5 is a cross-sectional view showing the internal configuration of the water substation facility system according to the present invention.

6 and 7 are an exploded perspective view and a partially cut perspective view of the air suction hose floating means included in the water substation facility system according to the present invention.

8 is a cross-sectional view showing an operation example of the water substation facility system according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: water transformer case 110: control panel

200: cover 300: compressed air supply means

310: compressed air discharge line 320: air suction hose

400: water level detection unit 500: air suction hose floating means

510: floating body 520: guide wall

530: cap 540: fastening pin

550: seating part

Claims (4)

In a water substation installation system having a compressed air supply means for injecting compressed air into the space where water is introduced, An air suction hose 320 having a softness so as to be wound and unfolded, and one end of which is in communication with the compressed air supply means and supplies external air to the compressed air supply means; And An air suction hose floating means 500 coupled to the other end of the air suction hose 320 to float the other end of the air suction hose 320 onto the water surface when flooded; Water substation installation system characterized in that it comprises a. The method of claim 1, The air suction hose floating means 500, Floating body 510 to which the other end of the air suction hose 320 is coupled, and a guide wall 520 extending upward to surround a portion of the upper surface of the floating body 510 to which the air suction hose 320 is coupled. And a cap 530 covering the upper portion of the guide wall 520. The method of claim 2, The water substation facility system, characterized in that the drain port 522 is formed below the guide wall (520). The method according to any one of claims 1 to 3, The compressed air supply means includes an outer housing (1) and a housing cover (2) coupled therein, The air suction hose floating means 500 is formed in an upper shape to open the air suction hose 320 and the air suction hose floating means 500 on the upper surface of the housing cover 2. Water substation installation system characterized in that it further comprises a seating portion 550 is coupled.

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