KR20130006360U - Ventilation System With Sea Water Exhaust Means - Google Patents

Abstract

The present invention is a ventilation system installed to supply air to the cabin or engine room of the ship or offshore structure or to discharge the internal air outboard, the ventilation duct of the ventilation system is provided with seawater discharge means, the seawater discharge The means is located in the lower portion of the vent duct and comprises a pipe connected to the vent duct and a valve connected to the pipe, characterized in that the valve connected to the pipe of the sea water discharge means is characterized by consisting of a non-return valve.
Accordingly, according to the ventilation system provided with the seawater discharge means according to an embodiment of the present invention, by connecting the pipe to the bottom of the duct of the vent and the seawater discharge means consisting of a non-return valve on the pipe can reduce the height of the vent duct By doing so, it is possible to reduce the weight of the duct, to facilitate the arrangement of equipment, as well as to contribute to improving the resilience of the ship.

Description

Ventilation System With Sea Water Exhaust Means

The present invention relates to a ventilation system applied to a vent of a ship or an offshore structure, and more particularly, by having a drain system consisting of a valve and a pipe at the bottom of the vent, even if the upper hole of the vent duct is temporarily submerged in seawater. The present invention relates to a ventilation system having seawater discharge means for allowing water to be discharged to the outside without entering the buoyancy section.

In general, a ship is provided with equipment such as an engine room and a ventilation system for supplying fresh air to the various spaces in which people reside or to discharge the internal air outboard.

As shown in FIG. 1, the ventilation system provided in a ship or an offshore structure is connected to an engine room or a cabin and other compartments, and includes a ventilation opening duct (a) made of stainless steel and an opening of the ventilation opening duct. It comprises a vent (b).

As described above, the hole of the ventilation hole installed for ventilation or ventilation in the vessel or the marine structure is a space included in the buoyancy section when calculating the stability to prevent the flooded water from entering the buoyancy section even when the vessel is inclined and temporarily submerged in seawater. It is designed to be placed above the positive range of positive resilience.

In this case, the greater the resilience angle is required, the higher the height of the ventilation openings duct (a), and as the height of the ventilation openings duct (a) increases, the arrangement of the support structure and the interference with other equipment is difficult. Difficult and increased weight, of course, there is a problem affecting the resilience of the ship.

There is no published patent document.

The present invention was conceived in view of the above problems, the problem to be solved in the present invention is to provide a seawater discharge means consisting of a valve and a pipe at the bottom of the duct of the ventilation hole vent hole located in the upper portion of the ventilation duct temporarily It is an object of the present invention to provide a ventilation system having seawater discharge means for allowing submerged water to be discharged to the outside without being submerged in the buoyancy section even when submerged.

The problem to be solved in the present invention is to provide a ventilation system equipped with a sea water discharge means to reduce the material and production costs by eliminating the installation of additional support structure by shortening the length of the ventilation duct.

The present invention proposed for the above purpose is a ventilation system which is installed to supply air to the cabin or engine room of a ship or offshore structure or to discharge the internal air outboard, sea vent discharge in the ventilation duct of the ventilation system Means are provided.

In the present invention, the seawater discharge means provided in the ventilation duct of the ventilation system is located in the lower portion of the ventilation duct, characterized in that it comprises a pipe connected to the ventilation duct and a valve connected to the pipe.

In the present invention, the valve connected to the pipe of the sea water discharge means is characterized in that consisting of a non-return valve.

According to the ventilation system provided with the seawater discharge means according to an embodiment of the present invention, by connecting the pipe to the bottom of the duct of the vent and the seawater discharge means consisting of a non-return valve to the pipe to lower the height of the vent duct It is possible to reduce the weight of the duct, to facilitate the arrangement of equipment, as well as to contribute to improving the resilience of the ship.

In addition, the present invention can be configured to shorten the length of the air vent duct, it is unnecessary to install an additional support structure to reduce the material, thereby reducing the production cost.

1 is a view schematically illustrating a configuration state of a ventilation system according to the prior art in a ship or offshore structure.
2 is a view schematically illustrating a configuration state of a ventilation system having a seawater discharge means according to the present invention.

Preferred embodiments of the ventilation system having a seawater discharge means according to the present invention as described above will be described in detail by the accompanying drawings.

2 is a view schematically illustrating a configuration state of a ventilation system having a seawater discharge means according to the present invention.

The present invention is a ventilation system (10) which is installed to supply fresh air to the various spaces in which people and equipment such as the engine room in the ship or offshore structure to discharge the internal air outboard, the ventilation system ( 10 includes an air vent duct 11 connected to an engine room, a cabin, and other compartments, and an air vent 12 forming an opening of the air vent duct 11, which is a component of the air vent system 10. At a predetermined position of the seawater discharge means 20 is provided.

The vent duct 11 is a pipe-type duct in which an inlet port through which the outside air of the vessel is introduced or an outlet port for discharging air or gas inside the vessel is formed of stainless steel, and the vent duct 11 At a predetermined position of the ventilation hole duct 11 is provided with a ventilation hole 12 made of an open form.

The seawater discharge means 20 provided in the vent duct 11 is fixed to a lower portion of the vent duct 11, that is, preferably close to the bottom of the vent duct 11 by fixing means such as welding. A pipe 21 of length and a valve 22 connected to the pipe 21.

Here, the pipe 21, which is a component of the seawater discharge means 20, is installed at a position spaced apart from the lower end of the vent duct 11 by a predetermined height, and the pipe 21 is provided with a valve 22. In this case, the valve 22 connected to the pipe 21 is a valve made to be able to flow in only one direction to prevent the incoming seawater flowing back through the pipe, that is, a back flow that prevents the fluid from flowing back in the traveling direction. It is preferable to apply a prevention valve.

Therefore, even if the vent 12 is temporarily submerged in the seawater in the positive restoring force section by the application of such a non-return valve, the submerged water does not enter the buoyancy section and goes out through the pipe 21 and the valve 22. It is discharged, it is possible to prevent the incoming seawater to flow back through the pipe (21).

In addition, a cofferdam 30 (Cofferdam) is installed at the lower portion of the air vent duct 11 so that perfect watertightness can be maintained between the air vent duct 11 and the compartment inside the vessel by the coffer dam 30.

Ventilation system with seawater discharge means according to an embodiment of the present invention configured as described above is applicable to all kinds of vessels, as well as a variety of offshore structures including a drilling vessel, in some cases according to the installation environment It is possible to change the design of the furnace.

According to the ventilation system provided with the seawater discharge means according to the embodiment of the present invention as described above, by connecting the pipe to the bottom of the duct of the vent and the seawater discharge means consisting of a non-return valve on the pipe to lower the height of the vent duct By making it possible to reduce the weight of the duct, it is possible to facilitate the arrangement of equipment, as well as to contribute to improving the resilience of the ship.

In addition, the present invention can be configured to shorten the length of the air vent duct, it is unnecessary to install an additional support structure to reduce the material, thereby reducing the production cost.

So far, the ventilation system provided with the seawater discharge means according to the present invention has been described. In the present specification and drawings, preferred embodiments of the present invention have been disclosed, and although specific terms are used, these are merely used in a general sense to easily explain the technical contents of the present invention and to help understanding of the present invention. It is not intended to limit the scope. In addition to the embodiments disclosed herein, it can be said to those skilled in the art that various substitutions and modifications are possible within the scope without departing from the technical spirit of the present invention.

For example, in the above-described embodiment, the present invention is illustrated as being applied to a ship, but the present invention is not limited to the ship and may be applied to a drilling vessel or various types of offshore structures.

10: ventilation system 11: vent duct
12: vent 20: sea water discharge means
21: pipe 22: valve
30: Copper Dam

Claims (4)

A ventilation system installed to supply air to the cabin or engine room of a ship or offshore structure or to discharge internal air outboard.
Ventilation system having a seawater discharge means characterized in that the ventilating duct of the ventilation system is provided with seawater discharge means.
The method according to claim 1,
Seawater discharge means provided in the ventilation duct of the ventilation system is located in the lower portion of the ventilation duct and the ventilation system with seawater discharge means characterized in that it comprises a pipe connected to the ventilation duct and a valve connected to the pipe.
The method according to claim 2,
The valve connected to the pipe of the sea water discharge means is a ventilation system with sea water discharge means, characterized in that consisting of a non-return valve.
Ship or offshore structure characterized in that the ventilation system provided with the sea water discharge means of claim 1 applied.

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