KR20190010667A - Bilge discharge facilitating pipe - Google Patents

Abstract

A bilge discharge facilitating pipe for discharging a bilge to a bilge well, the bilge discharge facilitating pipe being suitable for use in an ore exclusive line having a large iron ore load for the volume of the hold. A first portion 20, a second portion 30 and a third portion 40 connected in sequence. The first portion is installed in the lower stool 120 which supports the partition 130 separating the hold from the plurality of hold spaces. The second portion is connected to the first portion and is vertically installed along the partition, and has a plurality of holes (38) communicating with the hollow portion on the side surface. The third portion is connected to the second portion and is disposed in the upper stool 140 supporting the partition, and the end portion 44 opposite to the end connected to the second portion reaches the upper deck 110b. Here, the hole provided in the second portion is formed from the first portion side to at least a position higher than the upper surface of the cargo.

Description

Bilge discharge facilitating pipe

The present invention relates to a bilge discharge facilitating pipe, and more particularly to a bilge discharge promoting pipe used for discharging water contained in a cargo held in a cargo hold of a ship to a bilge well.

[0002] In ships such as cargo ships carrying iron ores and the like, water (hereinafter also referred to as " bilge ") contained in cargoes such as iron ores (hereinafter also referred to as cargo) (See, for example, Patent Document 1).

Here, iron ore called Carajas Fine, which is published at Port of PDM (Brazil) PDM (Ponta Da Madeira), is known to contain a lot of bilge.

In the case where the cargo is a carazza spine, a wire mesh-like strainer (filter) installed at an outlet to the bilge well is clogged, whereby the bilge is not discharged to the bilge well but remains around the cargo. If the bilge is left, the drainage of the bilge must be performed at the time of landing, which results in poor working efficiency, and as a result, it takes time for the landing operation.

In view of this problem, there is a bilge discharge facilitating pipe for efficiently discharging the invented bilge to the bilge well (see, for example, Patent Document 1).

Japanese Patent Application Laid-Open No. 2011-162072

4 is a schematic diagram of the hold. Fig. 4 (A) shows the hold of the bulk line, and Fig. 4 (B) shows the hold of the ore-dedicated line.

The conventional bilge discharge facilitating pipe 11 disclosed in Patent Document 1 is effective when iron ore is loaded on a general bulk wire. This is because the iron ores 201 are not loaded in the hold 101 due to limitations or specific gravity of the load or the like and are stacked so that the central portion rises in the vicinity of the center of the hold 101 (see Fig. 4A) .

However, in the so-called ore exclusive line, the amount of iron ore to be loaded on the hold 102 is larger than that of other cargo lines. Therefore, the conventional bilge discharge facilitating pipe 11 described above is buried by the cargo 202 (see FIG. 4 (B)), and when the iron ore is loaded as well as the carrageen spine, Not performed.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a bilge discharge facilitating pipe for discharging a bilge contained in iron ore to a bilge well and to use the same for an ore- And to provide a suitable bilge drain facilitating pipe.

In order to achieve the above object, a bilge discharge facilitating pipe of the present invention is installed in a cargo hold and discharges a bilge contained in iron ore, which is a cargo held in a cargo hold, to a bilge well.

The bilge discharge facilitating pipe comprises a first portion connected in turn, a second portion and a third portion.

The first portion is installed in the lower stool which supports the partition dividing the hold into a plurality of hold spaces. The second portion is connected to the first portion and is vertically installed along the partition, and has a plurality of holes communicating with the hollow portion on the side surface. The third portion is connected to the second portion and is disposed in the upper stool supporting the partition, and the end portion opposite to the end portion connected to the second portion reaches the upper deck. Here, the hole provided in the second portion is formed from the first portion side to at least a position higher than the upper surface of the cargo.

According to the bilge discharge facilitating pipe of the present invention, the bilge is sent from the hole formed in the second portion into the bilge discharge facilitating pipe and discharged to the bilge well through the first portion. As a result, the discharge operation of the bilge in the cargo hold at the time of landing becomes unnecessary or reduced.

1 is a schematic view of a bilge discharge facilitating pipe.
Fig. 2 is a schematic view of a portion where the bilge discharge facilitating pipe is mounted from above.
3 is a schematic diagram of a second portion of the bilge drain facilitating pipe.
4 is a schematic view of the hold.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the drawings, but the shapes, sizes, and arrangement relationships of the respective components are merely schematically illustrated to the extent that the present invention can be understood. In the following, a preferred configuration example of the present invention will be described, but the material and the numerical condition of each constituent element are merely a preferable example. Therefore, the present invention is not limited to the following embodiments, but can make many modifications or variations that can achieve the effects of the present invention without departing from the scope of the present invention.

The bilge discharge facilitating pipe of this embodiment will be described with reference to Figs. 1, 2 and 3. Fig. 1 is a schematic view of a bilge discharge facilitating pipe. Fig. 2 is a schematic view of a portion where the bilge discharge facilitating pipe is mounted from above. Figure 3 is a schematic diagram of a particularly second part of the bilge drain facilitating pipe.

Generally, in a cargo ship, a bilge well is installed near the bottom of the cargo hold (hold). The water (bilge) contained in the cargo (cargo) is sent to the bilge well through the drainage hole provided on the bottom of the hold. Bilge sent to Billy Well is often discharged on board, depending on the circumstances.

In the ore exclusive line, the pier is divided into a plurality of hold (hold) 100 by a bulkhead 130. Further, a bill well 110 is provided in the vicinity of the bottom of the lower side of the holder 100.

The partition 130 is supported by a lower stool 120 on the bottom surface 110a of the holder 100 (also referred to as a tank top). Further, the partition 130 is supported by an upper stool 140 on the side of a deck (also referred to as an upper deck) 100b. The barrier ribs 130 are formed, for example, of corrugated plates. The partition wall formed of the corrugated plate is also called a corrugated bulkhead.

The water (bilge) contained in the cargo 200 is sent to the bill well 110 through a drain hole (not shown) provided on the bottom surface 110a of the holder 100. [ The bilge sent to the bilge well 110 is discharged to the outside of the ship from time to time according to circumstances. In this case, when the cargo 200 is a carza spine, a strainer (filter) of a wire mesh shape installed at a discharge port to the bilge well 110 is clogged so that the bilge is not discharged to the bilge well 110, There is a case where it remains around.

Further, in the case of the ore-exclusive line, the upper surface 200a of the cargo 200 reaches a higher position from the bottom surface 110a of the holder 100. [ Therefore, it is assumed that the discharge of the bilge from the drain port to the bilge well 110 becomes more difficult than the bulk line.

Thus, in the bilge ventilation pipe 10 of the present embodiment, the first portion 20, the second portion 30, and the third portion 40 are connected in this order.

The bilge drain facilitating pipe 10 is constructed using a tubular member (pipe) of any desired material. A plurality of pipes are connected to each other and processed as necessary to form a bilge discharge facilitating pipe 10 having a predetermined shape. Here, the bilge discharge facilitating pipe 10 is described as a structure in which the first portion 20, the second portion 30, and the third portion 40 are connected, but is not limited thereto. For example, the first portion 20, the second portion 30, and the third portion 40 may be formed by connecting a plurality of pipes, respectively. The first portion 20, the second portion 30, The three portions 40 may be integrally formed as one pipe.

The first portion 20 is installed mainly in the lower stool 120. One end (first end) 22 of the first portion 20 is installed to be positioned in the bell well 110. The other end portion (second end portion) 24 of the first portion 20 is installed to be positioned near the upper surface 120a of the lower stool 120.

The second portion 30 is vertically installed along the partition 130 from the upper surface 120a of the lower stool 120 to the lower surface 140a of the upper stool 140. [ One end (first end) 32 of the second portion 30 is connected to the second end 24 of the first portion 20. The other end portion (second end portion) 34 of the second portion 30 is installed so as to be positioned near the lower surface 140a of the upper stool 140.

When the partition 130 is a corrugated bulkhead, as shown in FIG. 2, the bilge discharge facilitating pipe 10 is installed between the corrugated plates. That is, the bilge discharge facilitating pipe 10 is installed so as not to protrude from the corrugated bulkhead.

The second portion 30 has a plurality of apertures 38 communicating with the hollow portion 36 on its side surfaces. The plurality of holes 38 can be formed by any desired means. If the diameter of the hole 38 is small, there is a possibility of causing clogging. On the other hand, if the diameter of the hole 38 is large, there is a possibility that the iron ore will not enter the bilge discharge facilitating pipe 10 in a large amount during loading or unloading, and may not exhibit a good performance.

Therefore, the diameter of the hole 38 is 10 mm. In addition, the diameter of the surface hole 38 showing good performance may be smaller than 10 mm, or larger than 10 mm.

Four holes 38 are formed at regular intervals on the circumference of a cross section orthogonal to the longitudinal direction of the second portion 30. That is, at positions of 0 degree, 90 degrees, 180 degrees, and 270 degrees with respect to the center of the cross section. These four holes 38 are formed at intervals of 100 mm in the longitudinal direction of the second portion 30. [ Further, the positions of the adjacent sets of holes 38 are shifted by 45 degrees with respect to the center of the cross section. Thus, for example, where the position of a set of holes 38 is 0 degrees, 90 degrees, 180 degrees, 270 degrees with respect to the center of the cross section, the position of the hole 38 in the set adjacent to the lengthwise direction, 45 degrees, 135 degrees, 225 degrees, and 315 degrees. In addition, the arrangement and the number of the holes are not limited to the above-described configuration in which good performance is exhibited.

These holes 38 are formed at least at a position higher than the upper surface 200a of the cargo 200 from the first end portion 32 side of the second portion 30 toward the second end portion 34 side, .

Herein, the drop height refers to the height of the upper surface 200a of the cargo 200 from the bottom surface 110a of the holder 100 in the partition wall 130. Further, the stop angle is the maximum angle that collapses when it is stacked at an angle higher than that, and the stop angle of the iron ore is about 36 degrees.

Herein, the loading factor given by the weight of the iron ore (MT (metric ton) = 1,000 kg) and the capacity (unit: CFT (cubic feet) = 1.133 cubic meter) SF: Stowage Factor) is 13.5 CFT / MT, and the stop angle is 25 degrees, the dropping height becomes, for example, 11.8 m.

Therefore, it is necessary to form the hole 38 at least to a position higher than the height of 11.8 m from the bottom surface 110a of the holder 100.

Further, when the dropping coefficient SF becomes larger, the dropping height becomes higher. It is preferable that the dropping factor (SF) of general iron ore is 13.0 to 13.5, but the dropping factor (SF) can be discharged up to 15. For this reason, in the present embodiment, the hole 38 is formed to a position higher than the height of 13.2 m from the bottom surface 110a of the holder 100.

Here, the loading factor (SF) is determined according to the shape of the hold, the mountain of iron ore, the brand, and the like. In addition, the dropping height is determined by the loading amount of the cargo 200 and the stop angle.

The third portion 40 is mainly installed in the upper stool 140. One end (first end) 42 of the third portion 40 is connected to the second end 34 of the second portion 30. The other end (second end) 44 of the third portion 40 is installed in the vicinity of the upper surface of the upper stool 140, that is, near the position to the upper deck 100b. In Figure 1 the first end 42 of the third portion 40 is located below the lower surface 140a of the upper stool 140 and the second end 44 of the third portion 40 is located below the upper deck The first end portion 42 and the second end portion 44 may be provided in the upper stool 140. In this case,

According to this bilge discharge facilitating pipe 10, a bilge is sent from the hole 38 formed in the second portion 30 into the bilge discharge facilitating pipe 10, and is passed through the first portion 20 to the bilge well 110 . As a result, the discharge operation of the bilge in the cargo hold at the time of landing becomes unnecessary or reduced.

The first portion 20 of the bilge discharge facilitating pipe 10 is installed in the lower stool 120 and the second portion 30 is installed so as not to protrude from the corrugated bulkhead when the partition 130 is a corrugated bulkhead. do. Therefore, the landing operation is not obstructed by the bilge discharge facilitating pipe 10.

In this bilge discharge facilitating pipe 10, iron ore may enter the pipe 10 from the holes 38 formed in the second portion 30, which may result in failure to exhibit good performance. Therefore, a maintenance work for removing iron ores in the pipe 10 is required.

However, the bilge venting pipe 10 is provided with the first portion 20 in the lower stool 120 and the third portion 40 in the upper stool 140. The second portion 30 is 10 m or more in length. Therefore, it is not easy to perform maintenance after disassembly during operation.

Thus, the operation of flowing the iron ore in the pipe out of the pipe is performed by injecting into the bilge discharge facilitating pipe 10 from the second end 44 of the third portion 40. In this bilge discharge facilitating pipe 10, since the second end portion 44 of the third portion 40 is installed in the vicinity of the upper deck 110b, the worker performing the maintenance work is easily accessible.

It is also preferable that the second end 44 of the third portion 40 be sealed by a detachable sealing means. According to this configuration, the sealing means of the second end portion 44 is removed only when the main water or the like in the pipe is required, and the sealing is performed at other times, thereby preventing unnecessary things from entering the pipe.

10: Bilge discharge facilitating pipe
20: First part
22, 32, 42: first end
24, 34, 44: second end
30: Second part
36: hollow portion
38: hole
40: Third part
100: Hold
110: Bill Good
120: Lower stool
130:
140: upper stool
200: Cargo

Claims (2)

A bilge discharge facilitating pipe for discharging a bilge contained in iron ore as a cargo to a bilge well,
In turn,
A first portion provided in a lower stool for supporting a partition for dividing the hold into a plurality of hold spaces,
A second portion connected to the first portion and vertically installed along the partition, the side portion having a plurality of holes communicating with the hollow portion;
And a third portion connected to the second portion and provided in an upper stool for supporting the partition and having an end opposite to an end connected to the second portion to reach the upper deck,
And the hole of the second portion is formed from the first portion side to a position higher than at least the upper surface of the cargo. The method according to claim 1,
Wherein an end portion of the third portion opposite to the end portion connected to the second portion is sealed by a detachable sealing means.

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