KR200447340Y1 - Secondary seal for External Floating Roof Tank - Google Patents

Abstract

The present invention relates to a secondary oil evaporation prevention device of the external floating roof type oil storage tank, the compression plate 10 coupled to the edge of the fluting loop (F) floating on the oil surface of the crude oil storage tank (T), and In the evaporation preventing device for a crude oil storage tank comprising a wiper seal 20 coupled to the end of the compression plate 10 and in close contact with the inner circumferential surface of the crude oil storage tank, the compression plate 10 is the fluting loop ( The first coupling plate 11 coupled to the edge of F), the second coupling plate 12 to which the wiper seal 20 is coupled, and the first coupling plate 11 and the second coupling plate 12 are coupled to each other. Including a connecting plate 13 for connecting, the angle between the connecting plate 13 and the first coupling plate 11 is in the range 130 ~ 150 °, the connecting plate 13 and the second coupling plate 12 The angle between) is in the range of 70 ~ 80 °, The length of the byte 13 is implemented as a range of 500 ~ 700 mm; The wiper chamber 20 includes a base end 22 coupled to an end of the second coupling plate 12, an extension part 23 extending upward from the base end 22, and the extension part ( 23 includes a seal 24 extending bent by the connection angle (A1) (A2) to be in close contact with the inner peripheral surface of the crude oil storage tank (T), the seal 24 at the end of the seal 24 Circular end portion 25 larger than the diameter of the) is characterized in that it is formed.

Description

Secondary oil evaporation prevention device of external floating roof type oil storage tank {Secondary seal for External Floating Roof Tank}

The present invention relates to a secondary oil evaporation prevention device of the external floating roof type crude oil storage tank having a wiper seal in close contact with the inner peripheral surface of the crude oil storage tank.

The oil storage tank closely adheres to the inner circumferential surface of the oil storage tank for the purpose of preventing evaporation of volatile organic compounds (VOC), economic loss caused by oil evaporation, or preventing external snow or rain from entering. Evaporation prevention device is adopted.

1 is a block diagram of an evaporation preventing device installed in a general external floating roof storage tank, Figure 2 is a perspective view showing a part of the evaporation preventing device of FIG.

As shown, the evaporation preventing device is coupled to the edge of the fluting loop (F) that floats on the oil level of the oil stored in the crude oil storage tank (T), the compression is applied to the inner peripheral surface side of the crude oil storage tank (T) The wiper chamber 2 is coupled to the end of the plate 1 and the compression plate 1 is in close contact with the inner peripheral surface of the crude oil storage tank by the elastic force of the compression plate (1). At this time, the compression plate 1 is assembled in the circumferential direction so as to correspond to the cylindrical inner user tank inner circumferential surface, the wiper seal (2) is generally "b" shaped and is coupled to the end of the compression plate (1). Accordingly, the wiper chamber 2 is in close contact with the inner circumferential surface of the crude oil storage tank T by the elastic force of the compression plate 1, thereby blocking the oil gas generated in the oil.

However, as the crude oil is supplied to the crude oil storage tank T or the crude oil is discharged to the outside, the wiper chamber 2 is dried or bent due to the vertical and horizontal movement of the fluting loop F. In this case, a gap is generated between the inner circumferential surface of the crude oil storage tank T and the wiper chamber 2 so that the oil gas is evaporated, or external snow or rain penetrates through the gap.

The present invention was created in order to solve the above problems, and the external injury is improved structure to prevent the wiper seal from curling or bending from the inner circumferential surface of the crude oil storage tank during the flute loop is moved up and down or left and right An object of the present invention is to provide a secondary oil evaporation preventing device of a roof type crude oil storage tank.

In order to achieve the above object, the secondary oil evaporation prevention device of the external floating roof type crude oil storage tank according to the present invention, is coupled to the edge of the fluting loop (F) floating on the oil level of the crude oil storage tank (T). In the evaporation preventing device for a crude oil storage tank, the compression plate (10) comprising a compression plate (10) and a wiper seal (20) coupled to an end of the compression plate (10) and in close contact with an inner circumferential surface of the crude oil storage tank. ) Is a first coupling plate 11 coupled to an edge of the fluting loop F, a second coupling plate 12 to which the wiper seal 20 is coupled, and the first coupling plate 11. And a connection plate 13 connecting the second coupling plate 12 to each other, wherein the angle between the connection plate 13 and the first coupling plate 11 is in a range of 130 to 150 °, and the connection plate 13 ) And the angle between the second coupling plate 12 70 to 80 ° range, the length of the connecting plate 13 is implemented in the range of 500 ~ 700 mm; The wiper chamber 20 includes a base end 22 coupled to an end of the second coupling plate 12, an extension part 23 extending upward from the base end 22, and the extension part ( The seal portion 24 is bent by the connection angle portion (A) and includes a seal portion 24 in close contact with the inner circumferential surface of the crude oil storage tank (T), the diameter of the seal portion 24 at the end of the seal portion 24 It is characterized in that a larger circular end 25 is formed.

In the present invention, the compression plate 10 is implemented with the stainless material, the thickness is 1.3 ~ 1.7 mm range.

In the present invention, in the wiper chamber (20), the angle formed by the connection angle portion (A) is in the range of 150 to 180 degrees; The length of the base end 22 is in the range of 30-50 mm;

The length from the circular end 25 to the bottom of the base end 22 ranges from 100 to 120 mm; The length from the bottom of the base end 22 to the connection angle portion A ranges from 45 to 65 mm.

In the present invention, in the wiper chamber (20), the base end (22) is thickened at a constant rate in a direction away from the extension (23); The seal portion 24 is thinned at a constant rate in a direction away from the extension portion 23.

In the present invention, the circular end 25 is convex to the opposite side of the inner peripheral surface of the crude oil storage tank.

According to the secondary oil evaporation prevention device of the external floating roof type oil storage tank according to the present invention, a gap occurs by preventing the wiper seal from curling or bending from the inner circumferential surface of the oil storage tank during the fluctuation of the fluting loop. It is possible to prevent evaporation of volatile organic compounds and oils, and also to prevent external snow or rain from entering.

Hereinafter, the secondary oil evaporation prevention device of the external floating roof type crude oil storage tank according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a side view of the secondary oil evaporation prevention device of the external floating roof type oil storage tank according to the present invention, Figure 4 is a side view showing the wiper seal of Figure 3 and Figure 5 is a wiper seal of Figure 4 compression plate Figure is a view showing a state coupled to the second coupling portion of.

As shown, the secondary oil evaporation prevention device of the external floating roof roof type oil storage tank according to the present invention, the floating roof (F) floating on the oil level of the crude oil storage tank (T) Compression plate (10) coupled to the edge of the (see Figure 2), and a wiper seal (20) coupled to the end of the compression plate 10 and in close contact with the inner circumferential surface of the crude oil storage tank (20) ).
The oil storage tank of a petrochemical plant is floated due to the buoyancy of the oil being stored, and the external floating roof to prevent evaporation of the stored oil while preventing snow or rain from entering the oil storage tank. This is installed. And the secondary oil evaporation apparatus of the present application is provided on the edge side of the outer floating roof, to prevent the volatile organic compounds (VOC) and oil gas evaporate between the outer floating roof and the inner peripheral surface of the crude oil storage tank.
That is, the external floating roof, which is injured by the buoyancy of oil in the oil storage tank, is maintained as a primary oil evaporation prevention device to prevent the evaporation of oil gas first because it keeps covering the oil storage tank even while injured. The present application is installed on the edge side of the outer floating roof is to be a secondary oil evaporation preventing device to prevent the secondary oil evaporation between the outer floating roof and the crude oil storage tank.

The crude oil storage tank is generally cylindrical in shape, and oil (crude oil) is stored therein to float the fluting loop (F).

The compression plate 10 serves as a spring for applying an elastic force so that the wiper seal 20 can be in close contact with the inner circumferential surface side of the crude oil storage tank, it is preferably made of a stainless material so as not to corrode by oil. In this embodiment, the material of the compression plate 10 is STS 304, the thickness is in the range of 1.3 ~ 1.7mm, preferably 1.5 mm is used.

The compression plate 10 includes a first coupling plate 11 coupled to the edge of the fluting loop F, a second coupling plate 12 to which the wiper seal 20 is coupled, and a first coupling plate 11. ) And a connecting plate 13 connecting the second coupling plate 12.

The first coupling plate 11 and the second coupling plate 12 are bent at the upper and lower ends of the connection plate 13 to be implemented.

At the end of the second coupling plate 12, the locking end 12a is bent so that the base end 22 of the wiper chamber 20, which will be described later, does not fall out. In addition, the second coupling plate 12 is formed with a coupling hole to which the bolt (B) is coupled.

The angle between the connecting plate 13 and the first coupling plate 11 is in the range of 130 to 150 degrees, and in this embodiment is 140 degrees.

The angle between the connecting plate 13 and the second coupling plate 12 is in the range of 70 to 80 degrees, in this embodiment 75 degrees.

The length of the connecting plate 13 is in the range of 500 to 700 mm, in this embodiment 570 mm.

The angle between the connection plate 13 and the first coupling plate 11 is in the range 130 ~ 150 °, the angle between the connection plate 13 and the second coupling plate 12 is in the range of 70 ~ 80 °. And when the length of the connecting plate 13 is in the range of 500 to 700 mm, the wiper seal 20 causes the oil storage tank to be moved due to the compression plate 10 even while the fluting loop F is moved up and down and left and right. Appropriate elastic force is provided so as to be in close contact with the inner peripheral surface of (T) at a constant pressure.

The wiper chamber 20 includes a base end 22 coupled to an end of the second coupling plate 12, an extension 23 extending upwardly from the base end 22, and an extension 23. It extends bent by the connection angle portion (A) comprises a seal portion 24 in close contact with the inner peripheral surface of the crude oil storage tank (T). At this time, the circular end portion 25 larger than the diameter of the seal portion 24 is formed at the end of the seal portion 24. The material of such a wiper seal is preferably implemented by PVC / NBR.

The base end 22 is thickened at a constant rate in the direction away from the extension 23. For example, the thickness of the portion that meets the extension 23 is 15 mm, and the thickness of the farthest end side is 18 mm. The base end 22 has a through hole 22a formed therein so that the bolt B coupled to the through hole formed in the second coupling plate 12 can pass therethrough.

As shown in FIG. 5, the base end 22 is disposed to be engaged with the locking end 12a of the second coupling plate 12. The intermediate plate 14 having the through hole formed on the upper surface of the base end 22 is disposed, and the bolt B is the through hole 22a of the second coupling plate 12, the intermediate plate 14, and the base end 22. After passing through) is coupled to the nut (N), the base end 22 is to be fixed to the second coupling plate (12).

Since the base end 22 is thickened in a direction away from the extension part 23, the second coupling plate 12 may be used while the seal part 24 and the extension part 23, which will be described later, move on the inner circumferential surface of the oil storage tank T. It is firmly fixed to the), and furthermore, the seal portion 24 to maintain the state in close contact with the inner circumferential surface of the crude oil storage tank (T). The length of this base end 22 is in the range of 30 to 50 mm, in this embodiment 35 mm.

The extension part 23 becomes thin at a fixed ratio in the direction away from the base end 22. For example, the thickness of the part which meets the base end 22 is 15 mm, and it becomes thin to the connection angle part A which meets the seal part 24. As shown in FIG. Therefore, a constant elastic force is applied to the seal portion 24 that meets the extension portion 23.

The seal portion 24 is thinned at a constant ratio in the direction away from the extension portion 23. For example, the thickness of the part bent by the extension part 23 and the connection angle part A is 11 mm, and the thickness of an edge part side is 9.5 mm. Since the seal portion 24 becomes thinner in a direction away from the extension portion 23, a constant elastic force is applied, and the seal portion 24 is in close contact with the inner circumferential surface of the crude oil storage tank T even after time passes.

Here, the length from the bottom of the base end 22 to the connection angle portion A is in the range of 45 to 65 mm, in this embodiment 55 mm. In addition, the angle formed by the connection angle portion A where the extension portion 23 and the seal portion 24 meet is in the range of 150 to 180 degrees. In this case, the connection angle part A includes the first connection angle part A1 formed on one side of the extension part 23 and the seal part 24, and the second connection angle part A2 formed on the other side. In this embodiment, the first connection angle portion A1 is 172 ° and the second connection angle portion A2 is 168 °.

The circular end portion 25 is formed at the end of the seal portion 24 and is convex toward the inner circumferential surface of the crude oil storage tank T, as shown in FIG. 5. This is technically meaningful, because if the circular end 25 is convex toward the inner circumferential surface side of the crude oil storage tank (T), the end of the seal portion 24 is separated from the inner circumferential surface of the crude oil storage tank (T). By employing such a circular end 25, it is possible to prevent the seal portion 24 from curling or bending while the seal portion 24 is vertically or horizontally moved while being in close contact with the inner circumferential surface of the crude oil storage tank T.

The length from this circular end 25 to the bottom of the base end 22 ranges from 100 to 120 mm, in this embodiment 110 mm.

The wiper chamber 20 is provided with the base end 22, the extension 23, the seal 24 and the circular end 25 in the above conditions, so that the fluting loop F is moved up and down and left and right. In addition, the state in which the crude oil storage tank (T) is in close contact with the inner circumferential surface can be maintained, and in this process, the seal 24 is not curled or bent.

As such, the secondary oil evaporation prevention device of the external floating roof type crude oil storage tank of the present application has the compression plate 10 and the wiper seal 20 of the above structure, so that crude oil is supplied to the crude oil storage tank T or the outside thereof. Even if the fluting loop F moves up and down and left and right as the crude oil is discharged, the seal part 24 of the wiper chamber 20 may be in close contact with the inner circumferential surface of the crude oil storage tank T without being curled or bent. Accordingly, the volatile organic compounds and the oil gas can be prevented from being evaporated and the rain or snow from the outside can be prevented.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible.

1 is a configuration diagram of an evaporation preventing device installed in a general external floating roof type storage tank,

Figure 2 is a perspective view showing a part of the evaporation prevention device of Figure 1,

3 is a side view of the secondary oil evaporation preventing device of the external floating roof type crude oil storage tank according to the present invention,

FIG. 4 is a side view illustrating the wiper seal of FIG. 3;

5 is a view illustrating a state in which the wiper seal of FIG. 4 is coupled to a second coupling part of the compression plate.

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

10 ... compression plate 11 ... first mating plate

12 ... 2nd engagement plate 12a ...

13 ... connecting plate 20 ... wiper seal

22 ... Base end 23 ... Extension

24 ... thread 25 ... round end

Claims (5)

Compression plate 10 coupled to the edge of the fluting loop (F) floating on the oil level of the crude oil storage tank (T), and the wiper is coupled to the end of the compression plate 10 in close contact with the inner peripheral surface of the crude oil storage tank (T) In the crude oil storage tank evaporation prevention device comprising a seal (20), The compression plate 10 includes a first coupling plate 11 coupled to an edge of the fluting loop F, a second coupling plate 12 to which the wiper seal 20 is coupled, and the first coupling plate 12. It includes a coupling plate 13 for connecting the coupling plate 11 and the second coupling plate 12, the angle between the connection plate 13 and the first coupling plate 11 is in the range 130 ~ 150 °, The angle between the connecting plate 13 and the second coupling plate 12 is in the range of 70 to 80 °, and the length of the connecting plate 13 is in the range of 500 to 700 mm; The wiper chamber 20 includes a base end 22 coupled to an end of the second coupling plate 12, an extension part 23 extending upward from the base end 22, and the extension part ( The seal portion 24 is bent by the connection angle portion (A) and includes a seal portion 24 in close contact with the inner circumferential surface of the crude oil storage tank (T), the diameter of the seal portion 24 at the end of the seal portion 24 Secondary oil evaporation prevention device of the external floating roof type crude oil storage tank, characterized in that a larger circular end 25 is formed. The method of claim 1, wherein the compression plate 10, Secondary oil evaporation prevention device of the external floating roof type crude oil storage tank, characterized in that the stainless material, the thickness ranges from 1.3 to 1.7 mm. The wiper chamber (20) according to claim 1, The angle formed by the connection angle portion A is in a range of 150 ° to 180 °; The length of the base end 22 is in the range of 30-50 mm; The length from the circular end 25 to the bottom of the base end 22 ranges from 100 to 120 mm; Secondary oil evaporation prevention device of the external floating roof type crude oil storage tank, characterized in that the length from the bottom of the base end 22 to the connection angle portion (A) is in the range of 45 ~ 65 mm. The wiper chamber (20) according to claim 1, The base end 22 is thickened at a constant rate in a direction away from the extension 23; The seal portion 24, the secondary oil evaporation prevention device of the external floating roof type crude oil storage tank, characterized in that the thinner at a predetermined ratio in the direction away from the extension (23). The method of claim 1, The circular end portion 25, the secondary oil evaporation prevention device of the external floating roof type crude oil storage tank, characterized in that the convex side opposite to the inner peripheral surface of the crude oil storage tank.

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