KR101347622B1 - Installation structure for insulation board within accommodation of ship or marine structure and method thereof - Google Patents

Abstract

The present invention facilitates the assembly of the insulation board through the angle member in the form of a cross-sectional design installed on the ceiling that partitions between the living room and the corridor within the living area of the ship or offshore structure to facilitate the installation of walls. At the same time, the purpose is to prevent the delay of work due to interference with other processes.
The present invention for achieving the above object is an installation structure of the insulating board 18 is fixed to the ceiling 14 to partition the living room 10 and the corridor 12 in the residential area of the ship or offshore structure. The upper angle member 16 having a downward opening portion 16a is fixed as a cross-sectional structure in the form of a recess with respect to the ceiling portion 14, and the insulation board is disposed in the opening portion 16a of the upper angle member 16. The upper end of the 18 is fitted and fixed, and the lower angle member 22 having the lower opening 22a on the lower end of the heat insulation board 18 is fixed through a plurality of insulating fins 20, while the lower The upper end of the wall panel 24 is fitted and fixed in the opening 22a of the angle member 22.

Description

Installation structure for insulation board within accommodation of ship or marine structure and method

The present invention relates to the installation structure and method of the insulation board in the residential area of the ship or offshore structure, and more particularly to the installation of a wall partitioning and partitioning between the living room and the corridor in the residential area of the ship or offshore structure. Installation structure of insulation boards in residential areas of ships or offshore structures, which reduces the time required to install insulation boards by changing the installation structure of insulation boards to the ceiling, and avoids interference with other processes. It is about a method.

In general, passenger ships and ships or offshore structures with more than 36 passengers have a number of spaces that allow them to live independently on board passengers, and these spaces are regulated by the relevant classification. The relevant fire rules must be met.

For example, referring to Figures 1 and 2, the upper angle member in the form of a cross-sectional tracer with respect to the ceiling 55, located between the living room 51 and the corridor 53 in the residential area of the ship or offshore structure ( 57 is fixed, and a plurality of first thermal insulation fins 59 are fixed by welding in the field along the longitudinal direction of the lower portion of the upper angle member 57, and with respect to one end of the upper angle member 57. An upper end of the insulation board 61 is fixed through the insulating pin 59.

In addition, the lower angle member 65 of the cross-sectional design having a plurality of second thermal insulation fins 63 fixed by welding along the longitudinal direction is fixed to the lower end of the insulation board 61, and the lower angle member ( 65) the upper part of the wall panel (Wall panel) 67 is fixed in a fitting manner.

Therefore, in the installation structure of the conventional heat insulation board 61 of the above structure, the following problem is accompanied.

First, since a plurality of first thermal insulation fins 59 are to be fixed by welding in the field with respect to the upper angle member 57, an excessive working time is required, and the insulation board 61 with respect to the upper angle member 57. After fixing the), the airtight work according to the silicon injection (S) should be additionally performed on the upper end side contact portion of the insulation board 61 with respect to the ceiling portion 55.

In addition, since a plurality of second heat insulating fins 63 are also fixed to the lower angle member 65 by welding in the same process, the work time is not excessively consumed, and the insulation board for the lower angle member 65 is used. In the same manner, the airtight work according to the silicon injection (S) is to be additionally carried out on the lower contact side of (61).

As a result, in the installation process of the conventional thermal insulation board 61, welding of the first thermal insulation fin 59 to the upper angle member 57 and welding of the second thermal insulation fin 63 to the lower angle member 65 are performed in the field. Since each must be done separately, there were many difficulties in the smooth performance of the process due to interference with other tasks.

In particular, when interference with other pipes or ducts arranged around the ceiling 55 occurs, an area where the installation of the first thermal insulation fin 59 is impossible occurs, and passes a specific inspection according to the relevant classification. It is impossible to do this, and most of all, a large amount of work time is consumed to weld and fix the plurality of first thermal insulation fins 59 to a plurality of locations along the longitudinal direction of the upper angle member 57.

In addition, in fixing the upper end of the heat insulation board 61 with respect to the upper angle member 57, not only the workability is lowered due to the penetration installation by the first thermal insulation fin 59, but also the ceiling position 55 It is accompanied by a decrease in workability due to the additional airtight work according to the silicon injection to the contact portion between the insulating board 61 and.

Accordingly, the present invention has been made in view of the above-mentioned matters, and the assembly of the insulation board through an angle member in the form of a cross-sectional device installed on the ceiling which partitions between the living room and the corridor in the residential area of the ship or offshore structure is performed. The purpose is to make it easier to perform the wall installation work and to prevent the delay of the work due to interference with other processes.

The present invention for achieving the above object is an installation structure of the insulation board is fixed on the ceiling for partitioning the living room and corridor in the residential area of the ship or offshore structure, a downward opening as a cross-sectional structure in the form of a depression with respect to the ceiling An upper angle member having a portion is fixed, and an upper end portion of the insulation board is fitted into and fixed to an opening of the upper angle member, and a lower angle member having a downward cross-section on the lower end portion of the insulation board has a cross-sectional structure in the form of a depression. While the heat insulating pin is fixed as a medium, the upper end of the wall panel is inserted into and fixed to the opening of the lower angle member.

The present invention provides a method of installing a thermal insulation board with respect to the ceiling for partitioning the living room and corridor in the residential area of the ship or offshore structure, the step of fixing the upper angle member of the cross-sectional design on the ceiling so that the opening is downward, Inserting and fixing an upper end of the insulation board to the inside of the opening of the upper angle member, fixing the lower angle member to be opened downward through a plurality of insulating fins at the lower end of the insulation board, and the lower angle member Characterized in that it comprises the step of fixing by inserting the upper end of the wall panel above the downward opening of the.

In the present invention, the insulating pin is characterized in that it is delivered to the assembly process of the insulation board in a state that is pre-coupled to a plurality of places along the longitudinal direction in the manufacturing process of the lower angle member.

The present invention is installed on the ceiling between the living room and the corridor in the living area of the ship or offshore structure, the upper angle member in the form of a cross-sectional design, fixed by fitting the upper end of the insulation board to the upper angle member, the lower end of the insulation board The lower angle member is installed for the installation of the wall panel, but the lower angle member is fixed to the lower angle member and the lower angle member by welding the insulation pin for fastening with the insulation board in the line process. It is possible to easily perform the support according to the assembly structure of the fitting method of the wall panel for each.

In particular, the present invention can change the shape of the upper angle member for fixing the upper end of the insulation board to eliminate the additional welding process for fixing to the insulating fin in a series of operations for the fixing of the insulation board, In addition, it significantly reduces the work time required for board installation and saves approximately 40% of the entire work process by eliminating interference with other work processes and equipment.

In addition, the present invention can significantly reduce the welding time made in the field by supplying the thermal insulation pins in the state connected to the lower angle member, and prevents interference with other processes to reduce approximately 25% of the entire work process You can do it.

In addition, the present invention can eliminate the process of assembling the insulation board for the upper angle member and then finishing with silicon to reduce approximately 5% of the entire work process.

In other words, the present invention can significantly reduce the overall work time in performing the installation work of the insulation board on the ceiling between the living room and the corridor in the residential area of the ship or offshore structure, and also the workability for the installation of the insulation board Significant improvements make it easier for workers to get the job done.

1 is a cross-sectional view partially showing an installation state of a wall partitioning between a living room and a corridor in a conventional living area.
FIG. 2 is an exploded perspective view of the assembly members shown in FIG. 1. FIG.
Figure 3 is a cross-sectional view partially showing the installation state of the wall partitioning between the living room and hallway in accordance with the present invention.
4 is an exploded perspective view of the assembly members shown in FIG. 3;

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

3 and 4, respectively, the upper angle member made of a cross-sectional design of steel material for the ceiling portion 14 located between the living room 10 and the corridor 12 in the residential area of the ship or offshore structure. 16 is fixed so as to be open toward the bottom, and the upper end of the insulation board 18 is fixed to the bottom opening of the upper angle member 16 by fitting, the length of the lower end of the insulation board 18 The lower angle member 22, which is formed in the form of a cross section of a steel material for fixing a plurality of insulating fins 20 by welding along the direction, is fixed through the fastening with the insulating fins 20, and the lower angle member ( 22) the upper portion of the wall panel 24 is made of a structure that is fixed in the fitting manner. At this time, the lower angle member 22 is installed so that the opening on the bottom side of the lower end of the insulating board 18 can be opened downward toward the floor.

That is, the upper angle member 16 is a cross-sectional structure in the form of a depression, unlike the prior art having a downward opening on the top (16a) is firmly fixed to the ceiling top 14, in this case the upper angle member 16 16a of the downward opening is arranged to face the bottom, so that the upper end portion of the insulation board 18 can be inserted into the interior of the downward opening 16a in a fitting manner to be firmly fixed in the vertical direction. Will be.

As a result, since the direct contact between the ceiling portion 14 and the upper end of the insulating board 18 does not occur, it is not necessary to perform the airtight work according to the silicon injection in the mutually contacted areas as in the prior art, The fixing of the insulation board 18 does not require the additional fixing of the insulating pin to the upper angle member 16.

In addition, the lower angle member 22 is a cross-sectional structure in the form of a recess and has a shape having a downward opening portion 22a, and the thermal insulation fin 20 is fixed to a plurality of positions along the longitudinal direction of the lower angle member 22. ) Is not welded at the site where the insulation board 18 and the wall panel 24 are assembled, but in a state where the thermal insulation fins 20 are welded and fixed in a line process of manufacturing the lower angle member 22 in advance. This makes it easier to assemble the lower angle member 22 with respect to the lower end of the insulation board 18.

In addition, the contact portion between the insulating board 18 and the lower angle member 22 is tightly coupled between them through an airtight operation according to the injection (S) of silicon.

On the other hand, the installation method of the insulation board in the residential area of the ship or offshore structure according to the present invention is the upper angle member in the cross-sectional design of the ceiling plate 14 for partitioning between the living room 10 and the corridor (12). Fixing 16 to the opening 16a so as to be downward, inserting and fixing the upper end of the insulation board 18 in the downward opening 16a of the upper angle member 16, and Fixing the lower angle member 22 to be opened downward through a plurality of insulating fins 20 at the lower end of the insulation board 18, and on the downward opening 22a of the lower angle member 22; It is made through the step of fixing by inserting the upper end of the wall panel 24 therein.

In this case, the heat insulating pin 20 is delivered to the assembling process of the heat insulation board 18 in a state in which the heat insulating pin 20 is pre-coupled and integrated into a plurality of places along the longitudinal direction in the manufacturing process of the lower angle member 22.

Accordingly, the present invention provides an upper angle member 16 in the form of a cross-sectional design that is opened downward from the ceiling 14 to divide between the living room 10 and the corridor 12 in the residential area of the ship or offshore structure. The lower angle of fixing the upper end of the insulation board 18 in the fitting manner on the opening of the upper angle member 16, the lower angle fixing the heat insulating pin 20 in the longitudinal direction to the lower end of the insulation board 18 The assembly process for the insulation board 18 and the wall panel 24 is simplified by inserting the upper end of the wall panel 24 into the opening of the lower angle member 22 while the member 22 is fixed. You can do it.

In particular, the present invention through the shape change for the upper angle member 16 for fixing the upper end portion of the insulating board 18 to the ceiling portion 14, without the use of a thermal insulation fin as before, the insulating board 18 Since it is possible to install, it is possible to greatly shorten the working time, and above all, it is possible to eliminate the interference with other work processes or other equipment installed on the ceiling board 14, thereby greatly reducing the work process. .

In addition, the present invention can eliminate the direct contact structure between the ceiling portion 14 and the insulation board 18, without having to perform the finishing process for the upper end of the insulation board 18 using silicon as in the prior art do.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the particular details of the embodiments set forth herein. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

10-residential 12-hallway
14-Chun 16-Top Angle Member
18-insulation board 20-insulation pin
22-lower angle member 24-wall panel

Claims (3)

delete A method of installing a thermal insulation board 18 with respect to the ceiling board 14 for partitioning the living room 10 and the corridor 12 in a residential area of a ship or offshore structure,
Fixing the upper angle member (16) having a cross-sectional design on the ceiling (14) so that the opening (16a) is downward;
Inserting and fixing an upper end of the heat insulation board 18 into the opening above the upper angle member 16;
Fixing the lower angle member 22 to the lower end of the heat insulation board 18 via a plurality of insulating fins 20 to open downward; And
And inserting and fixing the upper end of the wall panel (24) in the inside of the downward opening (22a) of the lower angle member (22). The method according to claim 2,
The insulating pin 20 is a ship or marine, characterized in that the delivery to the assembly process of the insulation board 18 in a state of being pre-coupled to a plurality of places along the longitudinal direction in the manufacturing process of the lower angle member 22. Method of installation of insulation boards in the accommodation space of the structure.

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