KR101898983B1 - Garbage ejector for submarine - Google Patents

Abstract

The present invention provides a surveillance function capable of detecting the inflow of seawater into a tubular structure passing through a pressure hull and discharging it to the outside of the submarine so as to warn the inflow of seawater. And to secure the stability of the submarine through this.
In order to accomplish the above object, the present invention provides a watercraft comprising: a tubular structure (12) penetrating a submarine's pressure hull (10) And a plug cork (20) provided so as to be openable and closable with respect to the upper cover (14), wherein the tubular structure (12) An upper seawater detection sensor 22 and a lower seawater detection sensor 24 are installed to detect the inflow of the upper sea water detection sensor 22 and the lower sea water detection sensor 24. The upper sea water detection sensor 22 and the lower sea water detection sensor 24 are connected to the display unit 28 And presents a submerged dirt emitter that detects and warns the inflow of seawater.

Description

Garbage ejector for submarine

The present invention relates to a dirt emitter of a submarine, and more particularly, to a dirt emitter of a submarine, and more particularly, And to enable a more active countermeasure to the submersible.

Generally, the submarine includes a garbage ejector for discharging the dirt generated in the compartment to the outside of the compartment. The conventional dirt discharger includes the pressure vessel 10 of the submarine as shown in FIG. 1, An upper cover 14 provided on the upper portion of the tubular structure 12 so as to be openable and closable and an outer casing 16 at a lower portion of the tubular structure 12, And a lower cover 18 installed to be openable and closable.

In this case, the upper cover 14 is manually openable and closable with respect to the upper end of the tubular structure 12, and the lower cover 18 is hydraulically openable and closable with respect to the lower end of the tubular structure 12 Respectively. The upper cover 14 is provided with a plug cock 20 that can be opened and closed regardless of opening and closing of the upper cover 14. [ In addition, the tubular structure 12 has a separate air passage (not shown) for providing operating pressure when discharging the dirt out.

Accordingly, when discharging the dirt out through the conventional dirt discharger, the dirt is injected into the tubular structure 12 while the upper cover 14 is opened, the upper cover 14 is closed again, Pressure air pressure is injected into the inside of the cylindrical structure 12 through the air pressure passage in a state where the cover 18 is opened, thereby discharging the dirt out. When the discharge of the dirt is completed through the series of processes, the lower cover 18 is closed again to block the inflow of seawater. The plug cork 20 is kept open to monitor the inflow of seawater through the inside of the tubular structure 12 during the entire process.

However, since the conventional submarine dust discharger having the above structure does not have a separate facility for checking the inside of the cylindrical structure 12 from the outside, the opening of the plug cork 20 installed in the upper cover 14 Only to monitor the inflow of seawater into the tank.

As a result, when seawater flows into the inside of the tubular structure 12 due to a problem in opening and closing the lower cover 18, the inflow of seawater into the crawler can be immediately performed through the open plug cork 20, Can greatly jeopardize the safety of the user. In particular, since the operation of the submarine is performed in a state in which the plug cock 20 is opened to check the inside of the dirt emitter, if there is a problem with water tightness by the lower cover 18, It can cause catastrophic problems in submarine safety.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a surveillance function capable of detecting inflow of seawater to a cylindrical structure passing through a pressure hull and discharging the dirt in the submarine, The purpose of this study is to exclude the occurrence of dangerous situation in the ship due to the influx of seawater more actively and to secure the stability in the submarine through this.

According to an aspect of the present invention, there is provided a submarine including: a tubular structure penetrating a pressure vessel of a submarine to allow communication between a space inside the submarine space and an underground space; an upper cover for opening and closing the upper and lower ends of the tubular structure; And a plug cock which is openably and closably provided with respect to the upper cover, wherein the tubular structure includes an upper seawater sensing sensor and a lower seawater sensing sensor for sensing inflow of seawater into the tubular structure And the upper and lower seawater sensors are respectively connected to the display unit to detect and warn the inflow of seawater.

In the present invention, the upper seawater detection sensor is located in the lower part of the upper cover in the tubular structure, and the lower seawater detection sensor is located in the upper part of the lower cover inside the tubular structure do.

In the present invention, the tubular structure may further include a pressure sensor for detecting a pressure change due to inflow of seawater. The pressure sensor may be connected to the display unit, and when the pressure changes due to inflow of seawater, And the pressure sensing sensor is installed at a position adjacent to the lower seawater detection sensor at an upper portion of the lower cover.

The present invention provides a function of detecting undesired inflow of seawater into a tubular structure installed to penetrate a pressure hull so as to discharge pollutants from the inside of the compartment to a dirt emitter equipped with a monitoring function for seawater inflow in a submarine It is possible to more easily confirm the influx of the seawater even when the plug cock installed in the upper cover is not opened and to more actively cope with the occurrence of the dangerous situation due to inflow of seawater into the space through the cylindrical structure .

Further, according to the present invention, since it is possible to discharge the dirt out of the closed state of the upper cover, it is possible to secure the stability of the submarine by positively excluding the occurrence of the dangerous situation accompanying the inflow of seawater, The company will be able to contribute to rethinking the image of the manufacturer by expressing the will of the manufacturer that the shipowner is actively considering the safety design.

Brief Description of the Drawings Fig. 1 is a view showing a constitution of a conventional sewer discharger. Fig.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

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

2, the dust discharger of the submarine according to the present invention includes a tubular structure 12 through which the tubular structure 10 can penetrate and communicate with the outside of the vessel 10, A lower cover 18 which is hydraulically provided in the lower part of the cylindrical structure 12 so as to be openable and closable together with the outer casing 16 and a lower cover 18 which is opened and closed together with the outer casing 16. The upper cover 14, And a plug cork 20 separately provided to be openable and closable.

The tubular structure 12 includes a seawater sensor such as a water contactor for sensing the inflow of seawater therein. The seawater sensor 12 includes a tubular structure 12, An upper seawater sensor 22 installed at a position adjacent to a lower portion of the upper cover 14 in the inside of the tubular structure 12 and a lower seawater sensor 22 installed at a position adjacent to an upper portion of the lower cover 18 inside the tubular structure 12 And a lower seawater detection sensor 24. In this case, the tubular structure 12 has a separate air passage (not shown) for providing operating pressure when discharging the dirt.

The tubular structure 12 further includes a pressure sensor 26 such as a pressure switch for detecting the inflow of seawater into the tubular structure 12, Is configured to detect a change in internal pressure that is accompanied by the inflow of seawater into the interior of the cylindrical structure 12. [ In this case, the pressure sensing sensor 26 is installed at a position adjacent to the lower seawater detection sensor 24 at the upper portion of the lower seawater detection sensor 24 in the tubular structure 12.

In this case, the upper and lower seawater sensors 22 and 24 and the pressure sensor 26 are both connected to a display unit 28 corresponding to a kind of monitoring equipment, Can easily confirm the internal state of the tubular structure 12 from the outside through the upper / lower seawater sensors 22, 24 and / or the pressure sensor 26, and in particular, the tubular structure 12 ) Is equipped with an external warning function that informs the user in advance of the occurrence of a dangerous situation caused by the inflow of seawater.

Therefore, when discharging the dirt out of the tubular structure 12 through the tubular structure 12, the upper cover 14 is opened to introduce the dirt into the tubular structure 12, and then the upper cover 14 is closed again Pressure air pressure is injected into the air pressure passage in a state where the lower cover 18 is switched to the open state to discharge the dirt out of the compartment. When the discharge of the dirt is finished, the lower cover 18 may be closed again. At this time, the plug cork 20 provided on the upper cover 14 may not be opened.

In this series of processes, the internal state of the tubular structure 12 can be provided to the display unit 28 through the upper / lower seawater sensors 22, 24 and / or the pressure sensor 26 , It is possible to more easily confirm completion of discharge of the dirt by the air pressure.

If there is a problem in opening and closing the lower cover 18 and the inflow of seawater into the tubular structure 12 occurs, the upper and lower seawater sensors 22 and 24 and / The upper cover 14 can be kept closed together with the plug cork 20, so that the display unit 28 can prevent the seawater 20 It is possible to prevent the occurrence of the problem of the inflow of air. That is, according to the present invention, it is possible to more positively exclude the occurrence of a fatal safety problem of the submarine accompanying the inflow of seawater into the cabin through the cylindrical structure 12 of the dirt discharger.

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 - Pressure hull 12 - Tubular structure
14-upper cover 16-casing
18-bottom cover 20-plug cock
22-Upper seawater detection sensor 24-Lower seawater detection sensor
26-Pressure sensor 28-Display unit

Claims (4)

A tubular structure 12 which penetrates through the pressure vessel 10 of the submarine to allow communication between the space inside the cabin and the space outside the cabin, an upper cover 14 for opening and closing the upper and lower ends of the tubular structure 12, A lower cover (18), and a plug cork (20) provided so as to be openable and closable with respect to the upper cover (14)
The tubular structure 12 includes an upper seawater detection sensor 22 positioned below the upper cover 14 to detect the inflow of seawater therein and a lower seawater detection sensor 22 located above the lower cover 18, The upper sea water sensor 22 and the lower sea water sensor 24 are connected to the display unit 28 to detect and warn the inflow of seawater,
The tubular structure 12 further includes a pressure sensor 26 for detecting a pressure change due to inflow of seawater at a position adjacent to the lower seawater sensor 24 at an upper portion of the lower cover 18 , And the pressure sensing sensor (26) is connected to the display unit (28) to warn the user through the display unit (28) when the pressure changes due to inflow of seawater. delete delete delete

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