KR101237375B1 - Combination structure of dome cover - Google Patents

Abstract

The present invention relates to a coupling structure for coupling the dome cover used in the storage tank, specifically, to a coupling structure used for the coupling of the dome cover to prevent the outflow of oil formed in the lower portion of the dome cover by evaporation in the storage tank. It is about.
To this end, the present invention by installing the dome cover 20 consisting of the support 21 and the flashing 24 on the wall portion 11 of the storage tank 10 to support the lower portion of the support 21 ( 100, a spacer 200 formed below the support plate 100, and a storage material spaced apart by the thickness of the spacer 200 and flowing along the support 21 or the flashing 24. In the coupling structure of the dome cover comprising a guide plate 300 to guide the inside of the storage tank 10,
The guide plate 300,
An inclined surface 310 is formed to be inclined upwardly at one end so that the storage flowing along the support 21 or the flashing 24 does not leak to the outside of the storage tank 10, and the step by the inclined surface 310. It is formed to include a coupling surface 320 is coupled to the flashing 24, the other end of the support 21 or the reservoir flowing along the flashing 24 does not interfere with the wall portion 11 It is a coupling structure of the dome cover, characterized in that it has a bent surface 330 formed to free fall vertically downward.

Description

Combination structure of the dome cover {COMBINATION STRUCTURE OF DOME COVER}

The present invention relates to a coupling structure for coupling the dome cover used in the storage tank, and more specifically, to a coupling structure used for the coupling of the dome cover to prevent the leakage of the deposits formed on the bottom of the dome cover by evaporation in the storage tank. It is about.

Generally, storage tanks for storing crude oil or oil, or requiring airtightness and chemical resistance, storage tanks for treating sewage and wastewater, thickening tanks for treating sewage, fermentation tanks for generating odor by suspended solids, etc. In order to prevent evaporation or corrosion of gas, and to prevent odors and foreign substances from flowing from the outside, it is made of metal such as aluminum.

FIG. 5 shows a coupling structure of the dome cover according to the prior art, and shows a connection relationship between the dome cover 20 and the wall portion 11 as shown.

That is, the tank 10 according to the prior art includes a wall 11, a support 21, a guide plate 30, a fastening means 40, and a triangular bracket 50.

The wall portion 11 is installed vertically upright, the support 21 is installed so as to be inclined to the upper side of the wall portion (11). The upper dome cover 20 and the flashing 24 are supported by the support 21 to form an upper portion.

In addition, the triangular bracket 50 and the wall portion bent surface 11a are formed to face the wall portion 11 to both sides.

Here, the triangular bracket 50 and the wall 30 is formed in a flat shape so that the filter 30 formed in a flat shape on the upper surface of the bent surface (11a) can be placed.

That is, the upper surface of the triangular bracket 50 forms a flat surface (not shown) horizontally, and the end of the wall portion 11 is bent to extend horizontally to one side from such a flat surface to form a wall portion bending surface 11a. .

Therefore, the filter 30 is seated on the upper surface of the flat surface and the wall bent surface (11a).

The filter 30 has a mesh structure made of aluminum. The filter 30 filters the foreign matter contained in the condensate flowing along the surfaces of the support 21, the flashing 24, and the support plate 100 formed to be inclined upward.

Here, the condensate after filtering the foreign matter passes through the filter 30 in the process of flowing downward by its own weight, and then comes into contact with various components fastened to the wall portion 11.

Therefore, as described above, in the conventional dome cover coupling structure, the storage stored in the storage tank is evaporated to form on the flashing inner surface of the dome cover, and flows to the edge along the inner surface of the dome cover, Leaking out of the storage tank occurs through the joint of the wall.

In addition, since the storage material formed on the inner surface of the flashing of the dome cover is brought into contact with it by flowing down the wall of the storage tank, there is a problem of causing corrosion of the storage tank and deterioration of durability because it causes corrosion of a component made of a metal material. .

The present invention has been proposed in order to solve the above-mentioned conventional problems, and an object of the present invention is the combination of a dome cover that prevents leakage caused by evaporation and deposits formed on the flashing inner surface of the dome cover to the outside of the storage tank. In providing a structure.

It is another object of the present invention to provide a coupling structure of a dome cover which prevents the deposits formed on the flashing inner surface of the dome cover from flowing down the wall of the storage tank.

Another object of the present invention to provide a coupling structure of the dome cover to increase the airtightness of the storage tank.

The present invention proposed to achieve the above object,
Support plate 100 for supporting the lower part of the support 21 by installing a dome cover 20 composed of a support 21 and a flashing 24 on the wall portion 11 of the storage tank 10, and the support Spacer 200 formed in the lower portion of the plate 100, and the storage space formed to be spaced apart by the thickness of the spacer 200 and flows along the support 21 or the flashing 24 inside the storage tank 10 In the coupling structure of the dome cover comprising a guide plate 300 to guide to,
The guide plate 300,
An inclined surface 310 formed to be inclined upwardly at one end to prevent the storage flowing along the support 21 or the flashing 24 from leaking out of the storage tank 10;
It is formed to be stepped by the inclined surface 310 is made to include a coupling surface 320 for coupling with the flashing 24,
At the other end, the support 21 or the storage flowing along the flashing 24 is characterized in that it is provided with a bent surface 330 is formed so as to free fall vertically downward without interfering with the wall (11).

In addition, the support plate, characterized in that it further comprises a fastening means for fastening through the spacer and the guide plate.

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The sealing member may further include a sealing member provided between the flashing and the guide plate to increase the airtightness of the storage tank.

As described above, the coupling structure of the dome cover according to the embodiment of the present invention is contaminated by the leakage by preventing the leakage phenomenon that the deposit formed on the inner surface of the support or flashing of the dome cover flows out of the storage tank. There is an advantage to prevent.

In addition, there is an advantage of preventing the corrosion of the wall portion and deterioration of durability by preventing evaporation and storage of the dome cover support or the deposit formed on the fleshing along the wall portion.

And there is an advantage to increase the airtightness inside the storage tank by closing the gap between the fleshing and the wall of the storage tank.

1 is a side view showing a storage tank according to the dome cover coupling structure according to an embodiment of the present invention.
Figure 2 is a plan view showing a storage tank according to the dome cover coupling structure according to an embodiment of the present invention.
3 is a cross-sectional view taken along line III-III of FIG. 2.
4 is a cross-sectional view taken along line IV-IV of FIG. 2.
Figure 5 shows a dome cover coupling structure according to the prior art.

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

1 is a side view showing a storage tank according to the dome cover coupling structure according to an embodiment of the present invention, Figure 2 is a plan view showing a storage tank according to the dome cover coupling structure according to an embodiment of the present invention.

As shown in Figure 1 and 2, the storage tank 10 according to the dome cover coupling structure according to an embodiment of the present invention is formed with a cylindrical wall portion 11, the storage is stored, of the wall portion 11 The dome cover 20 is installed on the upper side.

The dome cover 20 is composed of a plurality of supports 21, a plurality of metal panels 23, and a flashing 24 formed to surround the metal panels 23. The support 21 is radially arranged to each other so that the front end is fixed so as to be concentrated at a point, and the metal panel 23 having a plurality of triangular shapes is installed to be coupled to each other on top of the support 21.

Here, the material of the metal panel 23 may be aluminum or stainless steel as a metal material.

3 is a cross-sectional view taken along line III-III of FIG. 2.

As shown, the dome cover 20 coupling structure of the portion where the support 21 is formed is a support plate 100 for supporting the lower portion of the support 21, and the spacer 200 formed in the lower portion of the support plate 100 And a guide plate 300 formed spaced apart by the thickness of the spacer 200 and guiding a storage material flowing along the support 21 or the flashing 24 into the storage tank.

The support plate 100 is formed in the shape of a polygonal plate, and is provided to support the lower portion of the support 21 to be coupled to the top of the wall portion 11 of the storage tank 10.

In addition, a spacer 200 having a predetermined thickness is provided below the support plate 100, and a guide plate 300 is provided below the spacer 200 by a thickness of the spacer 200. Here, the spacer 200 has a function of absorbing the flow of the support 21 supporting the lower portion of the dome cover 20 within a predetermined range. That is, a space equal to the thickness of the spacer 200 is formed between the support plate 100 and the guide plate 300.

The guide plate 300 has an inclined surface 310 is formed to be inclined toward the top at one end of the right side, is formed stepped by the inclined surface 310 is formed with a coupling surface 320 coupled to the flashing 22, The other end is bent downward to form a bent surface 330.

That is, the coupling surface 320 functions to engage the flashing coupling surface 22a formed by bending at the edge of the flashing 22 formed to cover the outside of the dome cover 20.

At this time, a sealing member 350 may be provided between the coupling surface 320 and the flashing coupling surface 22a to be coupled to increase the airtightness of the storage tank.

In addition, the support plate 100, the spacer 200, and the guide plate 300 provided as described above may pass through the wall bending surface 11a bent at the upper end of the wall portion 11 of the storage tank 10. 400, the triangular bracket 500 may be fastened by the fastening means 400 to support the lower portion of the guide plate 300 inside the wall 11 to prevent the guide plate 300 from being bent.

Here, the sealing member 350 may be provided at the upper and lower portions of the guide plate 300 to increase the airtightness of the storage tank.

In addition, the fastening means 400 may be formed of a bolt 410, a washer 420, a nut 430, and the like.

In one embodiment of the present invention, but the fastening means 400, the support plate 100, the spacer 200, the guide plate 300 and the wall portion 11 is fastened but may be fastened by bonding or welding, etc. will be.

4 is a cross-sectional view taken along line IV-IV of FIG. 2.

As shown, the dome cover 20 coupling structure of the portion without the support 21 is provided with a flashing 24 formed on the upper portion, a guide plate 300 formed on the lower portion of the flashing 24 and the fastening means 400. It includes a guide plate 300 and the wall portion 11 is fastened through.

Dome cover coupling structure according to an embodiment of the present invention made as described above is the storage of the storage tank 10 is stored in the evaporation of the support 21 of the dome cover 20 lower surface or flashing 24 Condensed on the inner surface of the c). At this time, the condensate moves to the edge along the lower surface of the support 21 or the lower surface of the flashing 24.

Then, the condensed water moved along the support 21 falls to the lower portion of the storage tank 10 along the bent surface formed by bending to the guide plate 300 provided in the lower portion of the support 21. In addition, the inclined surface 310 is guided so that the condensed water flowing along the outermost side of the support 21 also flows inward.

Therefore, it is possible to solve the problem that the droplets accumulate on the top of the wall 11 or fall along the wall 11 to corrode the wall 11 and lower durability.

In addition, the storage droplets moving along the flashing 24 are guided to the lower portion of the storage tank 10 along the guide plate 300 by falling off the inclined surface 310 of the guide plate 300 provided under the flashing 24. . Therefore, it is possible to solve the problem of the conventional storage droplet leaks to the outside of the storage tank 10 through the gap between the dome cover 20 and the wall portion (11).

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And all changes to the scope that are deemed to be valid.

10: storage tank 11: wall portion
20: dome cover 21: support
24: flashing 100: support plate
200: spacer 300: guide plate
310: inclined surface 320: coupling surface
330: bending surface 350: sealing member
400: fastening means

Claims (5)

Support plate 100 for supporting the lower part of the support 21 by installing a dome cover 20 composed of a support 21 and a flashing 24 on the wall portion 11 of the storage tank 10, and the support Spacer 200 formed in the lower portion of the plate 100, and the storage space formed to be spaced apart by the thickness of the spacer 200 and flows along the support 21 or the flashing 24 inside the storage tank 10 In the coupling structure of the dome cover comprising a guide plate 300 to guide to,
The guide plate 300,
An inclined surface 310 formed to be inclined upwardly at one end to prevent the storage flowing along the support 21 or the flashing 24 from leaking out of the storage tank 10;
It is formed to be stepped by the inclined surface 310 is made to include a coupling surface 320 for coupling with the flashing 24,
At the other end of the dome cover, characterized in that the bent surface 330 is formed so that the storage flowing along the support (21) or the flashing 24 free fall vertically downward without interfering with the wall (11) Coupling structure.
The method of claim 1,
Coupling structure of the dome cover, characterized in that it further comprises a fastening means 400 for fastening through the support plate 100, the spacer 200 and the guide plate 300.
delete delete The method of claim 1,
The dome cover coupling structure further comprises a sealing member (350) provided between the flashing (24) and the guide plate (300) to increase the airtightness of the storage tank (10).

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