The invention relates to a method and a wall element for repairing a cabin wall structure according to the preambles of the independent claims presented below.
Fire safety requirements related to ship cabins set certain requirements for the wall structures of the cabins. For example cabin walls compliant with fire proof class B-15 of International Maritime Organization (IMO Resolution A.754(18) regarding Fire Resistance Tests) typically have a thickness of about 30 mm, and a wall structure comprising an inner and an outer metal surface, and a mineral wool insulator layer between the metal surfaces. This structure causes problems especially in the sanitary units of the cabins, where the metal surface toward the humid sanitary unit easily rusts. Thus, the wall structures of sanitary units have to be renewed for visual reasons and because corroded wall surfaces no longer fulfil the fire safety regulations. Similar problems can be faced with other fire proof classes such as C-0 and B-0, commonly used in ship cabins.
The repair of corroded wall structures is traditionally performed by demolishing the old wall structures and building a new wall step by step on location. Additionally, the sanitary fixtures must also be detached and generally renewed in connection with the demolishing.
In connection with a normal visiting of a cruise ship to the harbor, the visiting time is generally short, wherefore performing the multistage and time-consuming repairs according to the traditional way is difficult. When the ship is in use and it has a lot of passengers, rebuilding the wall structures is difficult, since the repairing comprises several work stages, which cause noise and dust problems. In other words repairing the cabins while the ship is in use is practically impossible by using the traditional way. In a large cruise ship, there can be a remarkable number of cabins to be repaired, so a part or even all of the cabins are out of use in connection with the repair. Repairing all of the cabins at one time requires a lot of time, whereby the cruise ship is out of use, and this is not economically profitable.
The aim of the present invention is to reduce or even eliminate the above-mentioned problems appearing in prior art.
The aim of the present invention is to obtain a novel method for repairing a wall structure, which reduces work stages of the wall repairing and thus also shortens the time required for the repairing.
The aim of the invention is especially to provide a method for repairing a wall structure of a cabin of a cruise ship.
The aim of the invention is especially to provide a method for repairing a corroded wall structure of a sanitary unit of a cabin.
It is another aim of the present invention to provide a quick and cost-efficient solution to the renovation of the wall structures of the cabins.
It is another aim of the present invention to provide a method for repairing wall structures, which can be carried out during a cruise without disturbing the passengers.
To achieve these aims, the method and the wall element according to the invention are characterized by what is presented in the characterizing parts of the enclosed independent claims.
Some preferred embodiments of the invention will be described in the other claims.
A typical method and wall element according to the invention can be used for repairing a cabin wall structure, which comprises at least an inner metal sheet, an outer metal sheet and an insulator layer between the inner and outer metal sheets.
A typical method according to the invention for repairing the above-mentioned cabin wall structure comprises at least the following steps
A typical wall element according to the invention for repairing the above-mentioned cabin wall structure comprises at least
The method according to the invention can preferably be used to repair wall structures of cabins of a cruise ship. The fire safety requirements require that the wall structure of the cabin has to comprise at least an insulator layer having a first side and a second side, and an inner metal sheet attached to the first side of the insulator layer and an outer metal sheet attached to the second side of the insulator layer. Thus, the method according to the invention can be used to repair fire proof and/or sound proof wall structures.
The method according to the invention can especially be used to repair a corroded wall structure of a sanitary unit of a cabin. The inner metal sheet of the wall structure described in this text is the wall surface of the sanitary unit, which easily rusts in the humid sanitary unit.
The method and the wall element according to invention can also be used to repair all other wall structures corresponding to the wall structure of the cabins mentioned above. For example, sanitary units of hotels can be constructed by using same kind of wall structures.
The present invention is based on the fact that by using ready-made wall elements, the corroded or otherwise damaged wall structures of the cabins can be repaired during the cruise. The ready-made wall elements can easily be delivered to the cruise ship, and they make it possible to do maintenance work in cabins also when the ship is in use, because the work can be performed quickly and cleanly without time consuming work stages.
A typical wall element according to the invention is a ready-made wall element comprising an insulator layer and a metal sheet attached to the insulator layer, and the insulator layer of the wall element has the same size and shape as the demolished wall structure, in the place of which the wall element will be fitted in the structure of the wall. The metal sheet of the wall element also has the same shape, but the size is a greater than the size of the insulator layer and the demolished wall structure, in such a way that the edges of the metal sheet extend over the edges of the insulator layer so that the wall element is installable to the repairable wall structure by means of these edges. In one embodiment of the invention at least two opposed edges of the metal sheet extend over the insulator layer in the structure of the wall element. Preferably, all edges of the metal sheet extend over the edges of the insulator layer. In one embodiment of the invention, the edges of the metal sheet, which extend over the edges of the insulator layer, have a width of 10-100 mm, preferably 30-60 mm and most preferably about 50 mm.
In the method according to the invention, the corroded or otherwise damaged inner metal sheet of the wall structure is removed in such a way that only a narrow strip, so-called installation frame, of the inner metal sheet is left in the edges of the opening made in the wall. Preferably, the installation frame is left around the opening made in the wall. The installation frames formed on the original inner metal sheet have a width of 10-100 mm, preferably 30-60 mm and most preferably about 50 mm.
In one embodiment of the invention, the installation frame is left at least in two opposed edges of the rectangular or square opening made in the wall.
In some embodiments installation frames can be arbitrary forms i.e. for example installation frame 407 could be partial i.e. for example having frame only on parts: 100-300 mm from the bottom, in middle area 1000-1300 mm from the bottom, or in top area 1900-2100 mm from the bottom.
After removing the inner metal sheet, also the insulator layer is removed from the place of the wall structure where the inner metal sheet is removed. The outer metal sheet of the wall structure is not removed from the structure.
A new ready-made wall element according to the invention, which comprises an insulator layer and a metal sheet attached to the surface of the insulator layer, is installed in the place of the demolished wall structure, and it is fastened to the installation frame of the original metal sheet. The insulator layer of the wall element is placed inside the wall structure.
The new wall element is installed in such a way that the edges of the metal sheet are placed overlappingly with the installation frame formed in the wall structure. Preferably, the new wall element is installed in such a way that all edges of the metal sheet are placed overlappingly with the installation frame. In the case of the rectangular or square installation frame, at least two opposed edges of the metal sheet of the wall element are installed overlappingly with the installation frame.
The wall element can be attached to the installation frame by using glue or a corresponding material, which fulfils the fire requirements. In addition to using glue to attach the new wall element, screws, welding, fast connectors, rivets, etc. can be used to attach the wall element.
According to an embodiment there are no old installation frames but the new element is attached to the outer metal sheet using fasteners or glue.
The repaired wall structure is ready after the installation of the wall element. The wall element does not need any further finishing steps after fastening the element to the installation frame.
According to an embodiment of the invention the ready-made wall element can comprise fast connectors for sanitary fixtures. Thus, new sanitary fixtures can easily be installed to the wall element by means of the fast connectors. Thus, the renovation of the sanitary unit can be carried out easily and quickly.
According to an embodiment of the invention the metal sheet of the installable wall element has a thickness of about 0.7-1.5 mm, depending on material. For example, the metal sheet can be made of steel or aluminum.
According to an embodiment of the invention the insulator layer is made of mineral wool or hard rock wool or any other insulator material suitable for installation and preferably complying with standards and regulations. Typically the thickness of the insulator layer is about 25 mm, but depending on the thickness of the cabin wall elements, the thickness of the insulator layer is for example 20-50 mm. A typical size of a wall element in a cabin sanitary area is 1.5 m×2.1 m.
According to an embodiment of the invention the wall element can comprise at least one reinforcement element attached to inside of the metal sheet, which is needed to harden the structure of the wall element and act as the place to install sanitary fixtures.
The invention will be described in more detail with reference to the appended drawings, in which
Cabins 100 are typically assembled as mirror images as shown in the enlargement part of
Cabins typically include sanitary/water closet (wc)/shower unit 200.
In some embodiments the wall structure between the sanitary area and the cabin can be common (sometimes referred to as single cassette setup compared to double cassette setup). In such a structure there is a metal surface on the cabin side and a metal surface on the sanitary area side. The insulator layer is between the surfaces.
The structure of the wall 202 can be a sandwich structure as shown in
In the next step S2, the hard rock wool insulator is removed with a tool or by hand. In step S3 an installable wall element 420 of an embodiment of the invention is installed in the opening made in the wall. The installable wall element 420 consists of a metal structure 422 for example of steel with thickness of 1.2 mm and a sufficiently thick hard rock wool insulator material 424 (insulator layer). The installation can be done for example using glue 426 between the installable element 420 and the frame of the old inner structure 406. The ready wall is shown in step S4 of
The described steps enable fast renewal of sanitary areas of the cabins, reducing the current work of at least a working day to less than an hour. This makes it possible to do maintenance work in cabins even during the time a passenger is having dinner when at sea or is visiting shore when on a cruise. Additional benefits include the possibility to renew some of the cabin areas during normal visits to harbor with wall elements. Additionally the element approach is not limited to cabin sanitary areas only but can be applied to any sandwich type of structure in ships or other constructions.
According to a further embodiment of the invention there is an assembly line in the harbor or ship yard as shown in
The invention is not restricted to the examples of the above description, but it can be modified within the scope of the inventive idea presented in the claims.
Number | Date | Country | Kind |
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20115092 | Jan 2011 | FI | national |
Number | Name | Date | Kind |
---|---|---|---|
4311656 | Spriggs | Jan 1982 | A |
4517038 | Miller | May 1985 | A |
4989385 | McCullough | Feb 1991 | A |
6565299 | Guilbault et al. | May 2003 | B1 |
Number | Date | Country |
---|---|---|
04-328088 | Nov 1992 | JP |
04-328089 | Nov 1992 | JP |
Number | Date | Country | |
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20120192778 A1 | Aug 2012 | US |