KR20130006051U - Anti-rolling system for submarine accommodation area - Google Patents

Abstract

The present invention sets up a residential hull located in the pressure hull of the submarine as an independent rotor-shaped double hull that can be maintained in a horizontal direction irrespective of the behavior of the pressure hull. The goal is to provide a more comfortable living environment for the crew by not being affected by the rolling condition of the crew.
The present invention for achieving the above object is an independent cylindrical double hull 12 is installed inside the pressure hull 10, the pressure hull 10 is installed between the double hull 12 and the pressure hull ( 10) a bearing 14 for restraining the axial movement of the double hull 12 relative to the axial movement and allowing only relative rotational movement in the circumferential direction, and a rolling of the pressure hull 10 installed in the double hull 12; Irrespective of the pressure hull 10 is provided with a weight 16 to maintain the position of the double hull 12 in a horizontal state in the vertical direction.

Description

Anti-rolling system for submarine accommodation area

The present invention relates to an anti-submarine rolling device, and more specifically, to maintain the behavior posture of the dormitory occupied by the crew in the submarine horizontally with respect to the vertical direction irrespective of the posture of the pressure hull. It relates to a submarine's living room rolling prevention device that allows the crew to enjoy a more comfortable and comfortable life.

Submarines were developed for the purpose of navigating underwater. Submarine hulls designed to withstand underwater environments include pressure hulls of cylindrical internal pressure structure, casings and casings installed to allow free flow / inflow of seawater between the free hull areas in the upper part of the pressure hulls. A sail is installed to accommodate various equipment such as an antenna from the top, and a tank for adjusting the ballast for submersion and injury.

The hull of a conventional submarine having the structure as described above has a disadvantage that is very vulnerable to the marine environment, such as digging. For example, a submarine will sail after sailing until it reaches a certain depth where it can be submerged, and when the submarine is operated, it will periodically snorkel to recharge its batteries. Due to its peculiarity, it is easy to cause a rolling phenomenon that is directly affected by the marine environment such as waves, and swings from side to side, which causes the crew of the submarine to cause motion sickness. In other words, the conventional living quarters of the submarine has a problem of worsening the living environment of the crew crew due to the sideways phenomena.

In particular, submarines have less space than any other boarding structure and are exposed directly to the special enclosed environment of underwater, so consideration of the health of the crew in submarines is an important and urgent task. It is true. Nevertheless, in consideration of the change in the attitude of the submarine caused by lateral fluctuations, the creation of a concrete and concrete plan for providing a more comfortable environment for the crew is not made.

Patent Publication No. 10-2004-0080995 (submarine)

The present invention has been devised in consideration of the above-mentioned matters, and has a separate hull-shaped double hull that can maintain the living quarters located in the pressure hull of a submarine in a horizontal direction irrespective of the attitude of the pressure hull. The purpose is to provide a more comfortable living environment for the crew by making the behavior of the living quarters unaffected by the rolling condition of the pressure hull.

The present invention for achieving the above object is a submersible compartment rolling prevention device of a submarine having a pressure hull made of a cylindrical pressure-resistant structure, an independent cylindrical double hull installed in the pressure hull, the pressure hull and A bearing installed between the double hull to restrain the axial movement of the double hull with respect to the pressure hull and to allow only a relative rotational movement in the circumferential direction, and a pressure installed irrespective of rolling of the pressure hull And a heavy weight to maintain the position of the double hull relative to the hull in a horizontal state with respect to the vertical direction.

In the present invention, the bearing is installed between the inner circumferential surface of the pressure hull and the outer circumferential surface of the double hull via a guide facility to constrain the axial movement of the double hull relative to the pressure hull and to provide a circumferential relative rotational movement. And the guide facility comprises a guide rail individually provided with at least one pair of insertion grooves formed in concentrically opposed positions on the inner circumferential surface of the pressure hull and the outer circumferential surface of the double hull, respectively, wherein the bearing comprises the guide. A plurality of rails are installed in the insertion grooves at appropriate intervals, and each bearing is characterized in that the position is restricted by the carrier.

In the present invention, the double hull includes a lower structure partitioned in a semi-cylindrical shape, and an upper structure for mounting a plurality of living facilities on the upper portion of the lower structure, the lower structure is a plurality of the inner circumferential surface of the double hull It is installed to be constrained through the first fixed support of the, the upper structure is installed to be constrained via a plurality of second fixed support with respect to the lower structure, while the heavy material is installed in the lower center of the lower structure It features.

The occupant room rolling prevention device of the submarine according to the present invention can be set as an independent cylindrical rotor of a double hull structure that separates the entire area where the crew members reside in the submarine's pressure hull from other areas in the submarine and can be rotated separately for the pressure hull. Therefore, even in the occurrence of rolling of the ship due to the change of the marine environment during submarine water and snorkel navigation, the residential compartment is able to maintain a horizontal position at all times without being affected by the space, unlike other spaces located inside the pressure hull.

As a result, the entire living quarters where the crew occupies, even when the submarine is swayed, can maintain a horizontal state in the vertical direction irrespective of the marine environment, thereby providing a more comfortable living environment.

1 is a vertical cross-sectional view showing the residence of the submarine according to the present invention.
2 is an enlarged view illustrating main parts of FIG. 1;
3 is a view showing the configuration of the guide facility shown in FIG.
Figure 4 is a diagram showing the change in behavior of the residence compartment shown in Figure 1 transverse oscillation of the submarine.

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

The submersible compartment of the submersible according to the present invention separates the entire area where the crew occupies from other areas of the submarine and is formed as an independent rotor that can be rotated separately for the pressure hull.

Referring to FIG. 1, the pressure hull 10 of the submarine has a double hull 12 arranged concentrically therein, and the double hull 12 is disposed inside the pressure hull 10. It is a separate cylindrical rotating body that is rotatably operated separately from other zones to be composed of a structure including the living quarters of the crew. In addition, the double hull 12 is installed to be restricted to the axial movement inside the pressure hull 10 and to allow only relative rotational movement in the circumferential direction.

The bearing 14 is installed to make a rolling contact between the inner circumferential surface of the pressure hull 10 and the outer circumferential surface of the double hull 12. The heavy weight 16 is installed in the double hull 12 so that the position of the double hull 12 in the vertical direction even when rolling of the pressure hull 10 due to the change of the marine environment during the submarine and snorkel navigation of the submarine. It keeps constant in the horizontal position.

To this end, the bearing 14 is installed to be regulated in a constant state through the guide facilities in the space between the inner circumferential surface of the pressure hull 10 and the outer circumferential surface of the double hull 12. Accordingly, the guide facility can restrain the axial movement of the double hull 12 with respect to the pressure hull 10 and allow only relative rotational movement in the circumferential direction.

Here, the guide facility may be configured in various forms, for example, in the embodiment of the present invention, the guide facility is an outer peripheral surface of the double hull 12 and the pressure hull ( The guide rails 18 are individually provided with at least one pair of insertion grooves 18a formed at positions facing each other concentrically on the inner circumferential surface of 10). That is, the guide rail 18 is composed of an inner guide portion formed along the circumferential direction on the inner circumferential surface of the pressure hull 10 and an outer guide portion formed along the circumferential direction on the outer circumferential surface of the double hull 12, The inner / outer guides are arranged concentrically at the same portions respectively opposed to each other, so that the rolling motion of the bearing 14 can be properly guided.

In this case, a plurality of bearings 14 are installed in the insertion grooves 18a of the guide rails 18 at appropriate intervals, and each bearing 14 has a ring-shaped carrier as shown in FIG. Constrained by (14a), the position is regulated and uniformly disposed over the entire circumference between the inner circumferential surface of the pressure hull 10 and the outer circumferential surface of the double hull 12.

The double hull 12 includes a lower structure 20 partitioned in a semi-cylindrical shape, and an upper structure 22 for mounting a plurality of living facilities 22a on the upper portion of the lower structure 20. The lower structure 20 is installed to be constrained through a plurality of first fixed supports 24 with respect to the upper inner circumferential surface of the double hull 12. In addition, the lower structure 20 forms a horizontal support surface 20a thereon, and the upper structure 22 is constrained by a plurality of second fixed supports 26 with respect to the horizontal support surface 20a. It is installed as possible.

In this case, the weight 16 is installed as a part of the lower center in the lower structure 20, the lower structure 20 together with the double hull 12 in the pressure hull 10. To keep it horizontal to the vertical direction.

Thus, a cylindrical double hull corresponding to an independent rotor which can be rotated separately via a plurality of bearings 14 internally with respect to the pressure hull 10 while separating the entire area for the crew's residence in the submarine from other sections within the submarine. By setting it to (12) and by embedding the weight 16 therein, the double hull 12 can always be kept horizontal in the vertical direction irrespective of the behavior attitude of the pressure hull 10. do.

In addition, the upper structure 22 fixedly installed on the horizontal support surface 20a of the lower structure 20 in the inside of the double hull 12 may include a living facility 22a for rest of the crew, submarine The residential facility 22a located inside the double hull 12 during rolling of the hull due to waves during the water and snorkeling of the sea is not affected by the transverse fluctuations through the weight 16 as shown in FIG. It is possible to maintain a horizontal posture, which allows the crew to live more comfortably.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, 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 following claims.

10-pressure hull 12-double hull
14-bearing 16-weight
18-guide rail 20-substructure
22-Upper structure 24-First fixed support
26-second fixed support

Claims (6)

A device for preventing rolling of a residential compartment of a submarine having a pressure hull 10 having a cylindrical cross-sectional pressure-resistant structure,
An independent cylindrical double hull (12) installed inside the pressure hull (10);
A bearing 14 installed between the pressure hull 10 and the double hull 12 to restrain the axial movement of the double hull 12 with respect to the pressure hull 10 and allow only relative rotational movement in the circumferential direction. ); And
A heavy material installed in the double hull 12 to maintain the position of the double hull 12 with respect to the pressure hull 10 in a horizontal state in a vertical direction irrespective of rolling of the pressure hull 10 ( 16. Rolling prevention device of the residence compartment of the submarine, characterized in that it comprises a).
The method according to claim 1,
The bearing 14 is installed between the inner circumferential surface of the pressure hull 10 and the outer circumferential surface of the double hull 12 via a guide facility to move axially of the double hull 12 with respect to the pressure hull 10. Restraint room rolling prevention device for the submarine, characterized in that to allow only the relative rotational movement in the circumferential direction.
The method according to claim 2,
The guide facility is provided with guide rails 18 each having at least one pair of insertion grooves 18a formed at positions that oppose concentrically on the inner circumferential surface of the pressure hull 10 and the outer circumferential surface of the double hull 12, respectively. The bearings 14 are provided in plurality in the insertion grooves 18a of the guide rails 18 at appropriate intervals, and each of the bearings 14 is restrained by the carrier 14a. Rolling prevention device of the residence compartment of the submarine.
The method according to claim 1,
The double hull 12 is characterized in that it comprises a lower structure 20 partitioned in a semi-cylindrical shape, and the upper structure 22 for mounting a plurality of living facilities (22a) on the upper portion of the lower structure (20). Rolling prevention device in the ward of the submarine.
The method of claim 4,
The lower structure 20 is installed to be constrained through the first fixed support 24 with respect to the inner circumferential surface of the double hull 12, and the upper structure 22 is fixed to the lower structure 20 in a second manner. Rolling prevention device of the residence compartment of the submarine, characterized in that it is installed to be constrained via the support (26).
The method of claim 4,
The heavy weight 16 is installed in the lower center of the lower structure 20, the submarine quarter room rolling prevention device.

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