KR20220035573A - Expandable sleeve sealant system - Google Patents

Abstract

According to the present invention, an expandable sleeve sealant system includes: a coaming installed on a partition wall that divides cabins, and through which a cable or a pipe passes; a first sleeve surrounding the cable or the pipe; a second sleeve filling an empty space inside the coaming; and a sealant for blocking front and rear sides of the coaming, wherein expandable sleeves that are expanded in a width direction or contracted in the width direction are commonly used as the first sleeve and the second sleeve, and the expandable sleeve includes unit sleeves and a connection member for connecting the unit sleeves to each other. According to the present invention, a width of the expandable sleeve is widened without limitation by a simple scheme of producing unit sleeves having a predetermined width and connecting the unit sleeves to each other by a connection member. Accordingly, in order to produce an expandable sleeve having a large width, a large-scale extrusion line is not required, so that a production cost is reduced.

Description

Expandable sleeve sealant system {EXPANDABLE SLEEVE SEALANT SYSTEM}

The present invention relates to an expandable sleeve sealant system.

In order to supply electricity and communications to various parts of the ship, electric cables and communication cables (hereinafter referred to as "cables") pass through cabins and cabins, and various pipes also pass through cabins and cabins. Hereinafter, the description will be made using a cable as an example.

Cabins are separated from cabins by bulkheads, and in order for cables to pass between cabins, a hole must be made in the bulkhead for the cables to pass through. After the cable passes through the hole, a gap appears between the cable and the hole. Because of this gap, cabins cannot be isolated from each other.

If cabins are not isolated like this, if a fire breaks out in one cabin, the fire can quickly spread to other cabins through the gap.

In order to solve this problem, in the applicant's registered patent (10-1606521), a hole is drilled in the partition, a coaming is installed in the hole, a cable is passed through the inside of the coaming, and the cable is fed into the first sleeve. The inner space of the coaming is filled with a second sleeve, and the front and rear of the coaming are blocked with sealant to isolate the cabin from the cabin. To achieve this, a first sleeve that matches the diameter of the cable and a second sleeve that fills the empty space inside the coaming are required. Therefore, the first sleeve and the second sleeve must be made separately.

On the other hand, if a cable whose diameter does not match the already manufactured first sleeve must be suddenly installed in the field, the first sleeve must be remade, greatly increasing the time it takes to install the sealant system in the field.

Meanwhile, as the width of the first sleeve and the second sleeve increases, the width of the extrusion line that extracts the first sleeve and the second sleeve must also increase. As a result, the production cost of the first sleeve and the second sleeve increases.

Korean registered patent (10-1606521)

The purpose of the present invention is to provide an expandable sleeve sealant system that can solve the above-mentioned problems.

The expandable sleeve sealant system to achieve the above purpose is,

A coaming installed on the bulkhead that separates cabins from cabins and through which cables or pipes pass;

A first sleeve surrounding the cable or pipe;

a second sleeve that fills the empty space inside the coaming; and

Includes a sealant that blocks the front and rear of the coaming,

As the first sleeve and the second sleeve, an expandable sleeve that can be expanded in the width direction or contracted in the width direction is commonly used,

The expandable sleeve is characterized by being composed of unit sleeves and a connecting member connecting the unit sleeves to each other.

The present invention provides an expandable sleeve composed of a unit sleeve and a connecting member. Therefore, the width of the expandable sleeve can be expanded without limitation by a simple method of producing a unit sleeve of a certain width and then connecting it with a connecting member. Because of this, there is no need for a large-scale extrusion line to produce an expandable sleeve with a large width, thereby reducing production costs.

In the present invention, the expandable sleeve is used as a first sleeve that surrounds a cable or pipe, or the expandable sleeve is used as a second sleeve that fills the inner space of the coaming. Therefore, when using the expandable sleeve of the present invention, there is no need to make the first sleeve and the second sleeve separately.

In the present invention, the unit sleeve is composed of cylindrical parts, so the width of the expandable sleeve can be reduced by cutting off part of the cylindrical part, and the width of the expandable sleeve can be increased by connecting the unit sleeves with a connecting member. Therefore, the first sleeve that fits the diameter of the cable or pipe can be immediately produced in the field by increasing or decreasing the width of the expandable sleeve, and the second sleeve that fills the internal void of the coaming can be immediately produced in the field by increasing or decreasing the width of the expandable sleeve. It can be created.

Using the present invention, in the event of a fire, the cylindrical part of the unit sleeve expands, strongly pressing the cable or pipe, and filling the inside of the coaming tightly. Because of this, the fire cannot easily spread through cables or pipes to other cabins.

Figure 1 is a diagram showing a state in which expandable sleeve sealant systems according to an embodiment of the present invention are installed on a partition wall.
Figure 2 is a view showing the expandable sleeve sealant system installed in part A of Figure 1, and is a view showing the sealant removed from the expandable sleeve sealant system.
Figure 3 is a view showing the expandable sleeve shown in Figure 2.
Figure 4 is an exploded view of the expandable sleeve shown in Figure 3.
FIG. 5 is a view showing a portion of the cross section of the unit sleeve shown in FIG. 4.
Figure 6 is a diagram showing the connection stopper shown in Figure 4.
Figure 7 is a diagram showing a state in which an expandable sleeve is wrapped around a cable or pipe and used as a first sleeve.
Figure 8 is a diagram showing a modified example in which a cable or pipe is wrapped with an expandable sleeve and used as a first sleeve.

Hereinafter, an expandable sleeve sealant system according to an embodiment of the present invention will be described in detail.

As shown in Figure 1, the expandable sleeve sealant system 1 according to an embodiment of the present invention is installed on the bulkhead (SW) dividing the cabins.

As shown in Figures 1 and 2, the expanded sleeve sealant system 1 according to an embodiment of the present invention includes a coaming (2), a first sleeve (3), a second sleeve (4), and a sealant (5). It consists of

[Coming]

The coaming (2) is installed on the bulkhead (SW) that separates the cabins of the ship. To install the coaming (2), a hole is drilled in the partition wall (SW), and the coaming (2) is welded over the hole. The coaming (2) is made of steel or aluminum. The shape of the coaming (2) can be various, such as circular or square. A cable or pipe (CB) passes through the inside of the coaming (2).

[1st sleeve]

As shown in FIG. 2, the first sleeve 3 wraps a cable or pipe (CB) passing through the coaming (2). As the first sleeve 3, an expandable sleeve 100 is used that expands when heated and is manufactured to unit specifications so that the width can be expanded. A detailed description of the expandable sleeve 100 will be described later.

[Second sleeve]

As shown in FIG. 2, the second sleeve 4 fills the empty space inside the coaming 2 remaining after the cable or pipe CB passes through.

As the second sleeve 4, the expandable sleeve 100 used in the first sleeve 3 is commonly used. Therefore, there is no need to make the first sleeve 3 and the second sleeve 4 separately. A detailed description of the expandable sleeve 100 will be described later.

[Sealant]

As shown in Figure 1, the sealant 5 blocks the front and rear sides of the coaming 2. Sealant 5 is made of silicon resin. When the sealant (5) receives heat above 200°C, it expands 5 to 10 times. The sealant (5) seals the interior of the coaming (2) to prevent air or water from moving from one cabin to another through the interior of the coaming (2).

[Expandable sleeve]

As shown in Figures 3 and 4, the expandable sleeve 100 can be rolled up flexibly. The expandable sleeve 100 can be expanded in the width direction or contracted in the width direction. For this purpose, the expandable sleeve 100 is composed of unit sleeves 10 and a connecting member 20 that connects the unit sleeves 10 to each other.

unit sleeve

Each of the unit sleeves 10 has a constant width and length. The unit sleeve 10 is made of olefin resin. When the unit sleeve 10 receives heat above 200°C, it expands 5 to 10 times.

The unit sleeve 10 is composed of cylindrical parts 11 and joint parts 12, as shown in FIG. 4.

The cylindrical portion 11 has a uniform diameter and length and is empty inside. The diameter and length of the cylindrical portion 11 may vary. The cylindrical portion 11 is hollow on the inside, so it may be distorted to some extent when wrapping a cable or pipe (CB). A plurality of cylindrical parts 11 are arranged side by side and adjacent to each other.

The joint portion 12 connects the side surfaces of neighboring cylindrical portions 11. The joint portion 12 is formed integrally with the cylindrical portions 11. The joint portion 12 allows the cylindrical portions 11 to be rolled up without being separated from each other. For this purpose, as shown in FIG. 5, the thickness (t) of the joint portion 12 is preferably 1/8 to 1/10 of the diameter (D) of the cylindrical portion 11. If the thickness (t) of the joint 12 is greater than 1/8, the cylindrical parts 11 do not bend well, making it difficult to wrap the cable or pipe (CB), and if it is smaller than 1/10, the cylindrical parts 11 are used to connect the cable. Alternatively, this is because when wrapping the pipe (CB), the joint portion 12 may burst and the cylindrical portions 11 may be separated.

Among the cylindrical parts 11 of the unit sleeve 10, a first hinge part 13 or a second hinge part 14 is formed on the cylindrical part 11 located at the left end or the right end. Depending on where they are connected, the unit sleeves 10 may include only the first hinge portion 13, only the second hinge portion 14, or both.

The first hinge portion 13 is formed by cutting the cylindrical portion 11 located at the right end of the unit sleeve 10 to a certain length at regular intervals. In this embodiment, three first hinge portions 13 are formed.

The second hinge portion 14 is formed by cutting the cylindrical portion 11 located at the left end of the unit sleeve 10 to a certain length at regular intervals so as to engage with the first hinge portion 13.

When the unit sleeve 10 with the first hinge portion 13 and the unit sleeve 10 with the second hinge portion 14 are brought together, the second hinge portion 14 is formed at the cut portion of the first hinge portion 13. ), the first hinge portion 13 is inserted alternately into the cut portion of the second hinge portion 14, so that the first hinge portion 13 and the second hinge portion 14 are new as shown in Figure 3. It is made of a cylindrical part (11).

connection member

The connecting member 20 connects the unit sleeves 10 to each other. The connecting member 20 consists of a connecting rod 21 and a connecting stopper 22.

The connecting rod 21 is inserted into the cylindrical portion 11 created when the first hinge portion 13 and the second hinge portion 14 are engaged with each other. By inserting the connecting rod 21, the first hinge portion 13 and the second hinge portion 14 are no longer separated from each other, and the two unit sleeves 10 are connected to each other without separation. The connecting rod 21 is made of olefin resin, the same material as the unit sleeve 10.

The connection stopper 22 is inserted and fixed to the upper and lower ends of the cylindrical part 11 into which the connecting rod 21 is inserted and the adjacent cylindrical part 11, respectively. The connection stopper 22 closes the open upper and lower ends of the cylindrical portions 11 into which the connecting rod 21 is inserted. The connection plug 22 is made of olefin resin, the same material as the unit sleeve 10.

As shown in Figure 6, the connection stopper 22 is composed of an insertion part 22a, a head part 22b, and a connection part 22c.

Two insertion portions 22a are provided, and are respectively inserted into the cylindrical portion 11 into which the connecting rod 21 is inserted and the cylindrical portion 11 adjacent thereto.

There are two head portions 22b, each connected to one end of the insertion portions 22a, and formed at the upper and lower ends of the cylindrical portion 11 into which the connecting rod 21 is inserted and the adjacent cylindrical portion 11. Eliminate steps.

The connection portion 22c connects the sides of the two head portions 22b. When the cylindrical parts 11 are rolled up due to the connecting portion 22c, the connecting member 20 may also be rolled up. That is, the connection portion 22c plays the same role as the joint portion 12.

Hereinafter, a method of using the expandable sleeve as the first sleeve will be described.

As shown in Figures 2 and 7, the expandable sleeve 100 is used as the first sleeve 3 surrounding the cable or pipe (CB). The expandable sleeve 100 can be rolled up by connecting the cylindrical part 11 to the joint part 12. If necessary, multiple unit sleeves 10 can be connected with connecting members 20 to create a long-width expandable sleeve 100 that can wrap a cable or pipe (CB) in multiple layers.

Hereinafter, a method of using the expandable sleeve as a second sleeve will be described.

The size of the empty space inside the coaming (2) that remains after the cable or pipe (CB) passes is not constant. To fill this void, an expandable sleeve 100 is used as the second sleeve 4. Depending on the empty space, the unit sleeves 10 are connected to each other to make the expandable sleeve 100 the required width, or the unit sleeve 10 is cut to the required width for each cylindrical portion 11. The expandable sleeve (100) dries well and is hollow on the inside, so it is easily distorted, so it is easy to install in the empty space inside the coaming (2).

Hereinafter, an expandable sleeve according to a modified example will be described.

As shown in FIG. 8, the expanded sleeve 200 according to the modified example is composed of a unit sleeve 210 and a connecting member 20. The unit sleeve 210 is composed of a cylindrical portion 11, a joint portion 12, and a filling portion 15. Since the expandable sleeve 200 according to the modified example is the same as the expandable sleeve 100 described above except that it further includes a filling portion 15, description of the remaining components will be omitted.

The cylindrical portion 11 is hollow on the inside, so it is distorted when wrapping the cable or pipe (CB) and can smoothly wrap the cable or pipe (CB). In addition, the cylindrical portion 11 is hollow on the inside, so it can be easily inserted into the empty space inside the coaming 2 while being crushed.

However, when the cylindrical parts 11 are shrunk in the direction of the internal space during a fire, the cylindrical parts 11 strongly press on the cable or pipe (CB), and it is difficult to fill the inside of the coaming 2 tightly, preventing fire transmission. The effect is significantly reduced.

In order to prevent this phenomenon, a filling part 15 that fills half of the internal space of the cylindrical part 11 in the event of a fire is further provided.

The filling portion 15 is made of olefin resin. The filling portion 15 is made integrally with the cylindrical portions 11.

As shown in FIG. 8, the position of the filling part 15 is located in the internal space opposite to the direction in which the cylindrical part 11 contacts when wrapping the cable or pipe CB. Because of this, when the cylindrical parts 11 surround the cable or pipe CB, the internal space may be distorted, so that the cable or pipe CB can be smoothly wrapped.

Due to the filling portion 15, the filling portion 15 fills the inner space of the cylindrical portion 11 in the event of a fire, so that the cylindrical portion 11 expands outward instead of shrinking inward, causing the cylindrical portion 11 to expand. ) can press the cable or pipe (CB) and fill the inside of the coaming (2) tightly, maintaining the effect of preventing fire transmission.

1: Expandable sleeve sealant system 2: Coaming
3: first sleeve 4: second sleeve
5: Sealant 100, 200: Expandable sleeve
10, 210: unit sleeve 20: connecting member
CB: Diameter of cable or pipe SW: Bulkhead

Claims (5)

A coaming installed on the bulkhead that separates cabins from cabins and through which cables or pipes pass;
A first sleeve surrounding the cable or pipe;
a second sleeve that fills the empty space inside the coaming; and
Includes a sealant that blocks the front and rear of the coaming,
As the first sleeve and the second sleeve, an expandable sleeve that can be expanded in the width direction or contracted in the width direction is commonly used,
The expandable sleeve is an expandable sleeve sealant system, characterized in that it consists of unit sleeves and a connecting member connecting the unit sleeves to each other. The method of claim 1, wherein each of the unit sleeves:
Cylindrical parts having a uniform diameter and length, having an empty interior, and being arranged side by side and adjacent to each other; and
An expandable sleeve sealant system comprising a joint that connects the sides of the adjacent cylindrical parts and allows the cylindrical parts to be rolled up. According to paragraph 2,
Among the cylindrical parts, a first hinge part or a second hinge part is formed in the cylindrical part located at the left end or the right end,
An expandable sleeve sealant system characterized in that only the first hinge portion, only the second hinge portion, or both are provided depending on the position at which the unit sleeves are connected to each other. According to paragraph 3,
An expandable sleeve sealant system, characterized in that the thickness of the joint is 1/8 to 1/10 of the diameter of the cylindrical part. The method of claim 4, wherein the connecting member is:
a connecting rod inserted into the interior of the cylindrical portion created when the first hinge portion and the second hinge portion are engaged with each other; and
An expandable sleeve sealant system comprising a connection stopper inserted and fixed to the upper and lower ends of the cylindrical portion into which the connecting rod is inserted and the adjacent cylindrical portion, respectively.

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