KR20150100233A - Multi cable transit and method of construction same - Google Patents

Abstract

The present invention relates to a multi cable transit and a method of construction the same. The multi cable transit can easily fix a frame of a multi cable transit to a frame member of a wall without using a separate fixing plate, thereby reducing the number of processes. In addition, flame, harmful gas or influent water is prevented from moving to a gap between a frame fixed to the frame member and a panel in the wall in the event of fire, by thoroughly sealing the gap between the frame and the panel.

Description

[0001] MULTI CABLE TRANSIT AND METHOD OF CONSTRUCTION SAME [0002]

The present invention relates to a multi-cable transformer and a method of constructing the multi-cable transformer. More particularly, the present invention relates to a multi-cable transformer, It is a multi-cable transformer that can reduce the workload and can prevent flames, toxic gases, or intrusion from moving between the frame and the panel during a fire by completely sealing the frame between the frame fixed to the frame member and the wall panel. To a method of constructing a cable transit.

In general, electronic equipment or most of the devices use electricity as the main power source, and thus many cables are being used to connect power to equipment or to connect equipment and equipment to electrical signals.

In particular, the ship includes an indoor space for various purposes such as a crew room, a cabin, a cargo room, an engine room, and a control room (hereinafter collectively referred to as a "cabin"). Each cabin is divided into a wall partition wall and a ceiling partition wall, Multiple cables for power and control are installed to penetrate the bulkhead.

The wall is provided with a skeletal member at its center, and a panel such as a gypsum board is installed on both sides of the skeletal member so that the cable penetrates through the panel and the skeletal member.

Conventionally, as described above, in order to protect the cables passing through the respective partition walls, the partition walls partitioning the respective cabins are prevented from moving flames and heat in the cabin to the other cabin during the fire of the cabin, Cable Transit) construction method was used.

In the conventional MCT construction method, a through hole is provided in a wall through which multiple cables pass, and an insertion sleeve having multiple cables inserted in the through hole is inserted into the through hole formed in the panel of the wall. And is installed between the skeletal member and the skeletal member made of steel provided at the center.

In the conventional MCT construction method, a separate fixing plate is fixed to the insertion sleeve by welding or the like so as to protrude outward from the insertion sleeve in order to install the insertion sleeve into which the cable is inserted between the skeleton member and the skeleton member of the wall, A method of fixing the end portion of the fixing plate to the framework member along the rim by a method such as welding or the like has been used.

However, when the MCT is installed as described above, a separate fixing plate is required, thereby increasing the cost due to the MCT unit cost and construction.

In addition, as described above, there is a problem that a separate fixing plate is welded to the insertion sleeve, and the rim of the fixing plate is further welded to the frame member.

In order to solve the above-mentioned problems, the present invention provides a multi-cable transformer which can easily fix a frame of a multi-cable transformer to a skeleton member of a wall without using a separate fixing plate, The object of the present invention is to provide a method of constructing a multi-cable transit.

The present invention relates to a multi-cable transformer and a multi-cable transformer which can prevent a flame, toxic gas, or intrusion from moving between a frame and a panel during a fire by applying a blocking agent between a frame fixed to the frame member and a panel of the wall, And an object of the present invention is to provide a method of constructing a transformer.

In order to achieve the above object, the present invention provides a multi-cable transformer,

A frame 200 having a through portion 210 formed therein so as to allow a plurality of multi cables to pass therethrough is installed between the skeletal member 110 of the wall 100 on which the panel 120 is installed on both sides and the skeletal member 110, )and;

An insert block 300 having a semicircular cable insertion groove 310 symmetrically formed so as to be stacked on both sides of the penetration portion 210 of the frame 200, )and;

And a blocking agent 400 filled between the frame 200 and the panel 120 so that the frame 200 is sealed between the panel 120 of the wall 100

The blocking agent 400 is a compound of a flame retardant, fire retardant, and nonflammable agent.

The present invention also provides a method of constructing a multi-cable transit,

A step S100 of inserting a frame 200 provided with a penetration portion 210 between the skeletal member 110 of the wall 100 and the skeletal member 110;

(S200) of welding the frame member (110) and the frame (200) at regular intervals so as not to be separated from the frame member (110) along the rim of the frame (200);

A step S300 of installing an insert block 300 having a semicircular cable insertion groove 310 symmetrical to each other so that the multi cable is vertically separated from the penetration portion 210 of the frame 200 ;

(S400) of installing panels 120 on both sides of the skeletal member 110 of the wall 100;

(S500) of applying a barrier agent (400) between the frame (200) and the panel (120) of the wall body (100);

And inserting a plurality of multi cables into the cable insertion grooves 310 of the insert block 300 (S600).

As described above, the multi-cable transformer of the present invention and the method of constructing the multi-cable transformer can easily fix the frame of the multi-cable transformer to the frame member of the wall without using a separate fixing plate, There is an effect that the airflow can be saved.

In addition, the present invention has an effect of preventing a flame, toxic gas, or invasion water from flowing between a frame and a panel and being moved during a fire by applying a barrier agent between a frame fixed to the frame member and a panel of the wall.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exemplary view showing a state in which a frame of a multi-cable transformer according to the present invention is inserted into a skeletal member of a wall;
Fig. 2 is an exemplary view showing a state in which a frame of a multi-cable transformer according to the present invention is inserted into a skeletal member of a wall;
3 is an exemplary view showing a state in which a multi-cable transformer according to the present invention is installed on a wall.
4 is an exemplary view showing a frame and an insert block in a state in which a multi-cable transit according to the present invention is installed in a wall;
5 is an exemplary view showing a state in which an insert block is coupled to a frame of a multi-cable transformer according to the present invention.
6 is an exemplary view showing a state in which a multi cable is inserted into a multi-cable transformer according to the present invention;
Fig. 7 is an exemplary view showing a side cross-section in a state where a multi-cable is inserted into a multi-cable transformer according to the present invention; Fig.
8 is a flowchart showing a construction method of a multi-cable transit according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the figure, reference numeral 500 denotes a multi-cable, and reference numeral 600 denotes a cable tray.

First, the multi-cable transformer of the present invention is installed between the skeletal member 110 of the wall 100 on which the panel 120 is installed and the skeletal member 110 on both sides as shown in FIGS. 1 to 3, A frame 200 having penetrating portions 210 for allowing a plurality of multi cables to pass therethrough and a plurality of insulators 210 disposed on both sides of the penetrating portions 210 of the frame 200. The multi- There is provided an insert block 300 having a semicircular cable insertion groove 310 symmetrical to each other for inserting a cable.

And a blocking agent 400 applied between the frame 200 and the panel 120 so as to be sealed between the frame 200 and the panel 120 of the wall 100.

At this time, the frame 200 is attached to the skeletal member 110 along the length of the horizontal skeletal member 110 of the installed wall 100 and the length between the vertical skeletal members 110, It is preferable to use a hexagonal quadrangular column having both side ends opened so as to extend in the horizontal and vertical directions.

The blocking agent 400 applied between the frame 200 and the panel 120 is preferably filled with a compound of flame retardant, fire retardant, and non-flame retardant.

The insert block 300 is sealed between the multi cable 500 and can absorb an external impact transmitted from the multi cable 500 and is made of a material such as incombustible silicon .

The cable insertion grooves 310 of the insert block 300 are formed in various diameters in accordance with the diameters of the multiple cables 500 passing through the frame 200 and are inserted into the frame 200 through which the multi- It is preferable that the insert block 300 having the cable insertion grooves 310 of the same diameter is stacked according to the position of the unit 210.

The construction method of the multi-cable transformer according to the present invention will now be described.

1, a frame 200 having a penetration portion 210 therein is inserted between a horizontal skeletal member 110 and a vertical skeletal member 110 of the wall 100 (S100) The frame 200 and the frame 200 are separated from each other at regular intervals so that the frame 200 is not separated from the horizontal and vertical skeletal members 110 along the rim of the frame 200, (S200).

The frame 200 can be easily fixed to the skeletal member 110 of the wall body 100 by the technique of welding without using a separate fixing plate as described above to fix the fixing plate to the frame in the conventional multi- And the work flow can be reduced as compared with the conventional construction method in which the work is welded to the skeletal member along the four sides of the fixing plate.

As shown in FIG. 5, the insertion block 210 of the frame 200 includes a semi-circular cable insertion groove 310 symmetrical with respect to the vertical direction so that the multi- (S300).

At this time, the insert block 300 is stacked in order so that the cable insertion grooves 310 having the same diameter are arranged according to the diameter of the multi cable 500 passing through the penetration portion 210 of the frame 200 in advance.

3, the panel 120 is installed on both sides of the horizontal and vertical skeletal members 110 of the wall 100 and the panel 120 of the wall 100 is assembled with the frame 120, The barrier agent 400 is applied (S500) as shown in FIGS. 3 and 4.

The blocking agent 400 is applied and sealed between the frame 200 fixed to the horizontal and vertical skeletal members 110 and the panel 120 of the wall body 100 as described above so that flames, And can be prevented from flowing between the panel 200 and the panel 120 and moving.

After the blocker 400 is applied (S500) between the frame 200 and the panel 120 of the wall 100 as described above, as shown in FIGS. 6 and 7, A plurality of multi cables 500 are respectively inserted into the plurality of cables 310 (S600).

100: Wall
110: skeletal member 120: panel
200: frame 210:
300: insert block 310: cable insertion groove
400: Blocking agent

Claims (3)

In a multi-cable transit,
A frame 200 having a through portion 210 formed therein so as to allow a plurality of multi cables to pass therethrough is installed between the skeletal member 110 of the wall 100 on which the panel 120 is installed on both sides and the skeletal member 110, )and;
An insert block 300 having a semicircular cable insertion groove 310 symmetrically formed so as to be stacked on both sides of the penetration portion 210 of the frame 200, )and;
And a barrier agent (400) filled between the frame (200) and the panel (120) so as to seal between the frame (200) and the panel (120) of the wall (100).
The multi-cable transceiver according to claim 1, wherein the barrier agent (400) is a compound of flame retardant, fire retardant, and nonflammable agent.
In a method of constructing a multi-cable transit,
A step S100 of inserting a frame 200 provided with a penetration portion 210 between the skeletal member 110 of the wall 100 and the skeletal member 110;
(S200) of welding the frame member (110) and the frame (200) at regular intervals so as not to be separated from the frame member (110) along the rim of the frame (200);
A step S300 of constructing an insert block 300 having a semicircular cable insertion groove 310 symmetrical to each other so that the multi cable is vertically separated from the penetration portion 210 of the frame 200 ;
(S400) of installing panels 120 on both sides of the skeletal member 110 of the wall 100;
(S500) of applying a barrier agent (400) between the frame (200) and the panel (120) of the wall body (100);
(S600) inserting a plurality of multi-cables into the cable insertion grooves (310) of the insert block (300), respectively.

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