KR102652787B1 - Air lubrication system of ship - Google Patents

Abstract

Initiating the ship's air lubrication system. The air lubrication system of a ship according to an embodiment of the present invention includes an air generator that generates air; An air blowing unit that receives air and sprays it onto the bottom of the hull; An air supply pipe connecting the air generating unit and the air blowing unit to supply the generated air to the air blowing unit; and a protection block that covers the area around the air blowing unit and the air supply pipe disposed inside the ballast water tank in the ship to form a watertight space to prevent the inflow of seawater stored in the ballast water tank.

Description

Ship's air lubrication system {AIR LUBRICATION SYSTEM OF SHIP}

The present invention relates to an air lubrication system for ships.

A ship's air lubrication system is a facility that improves navigation efficiency by reducing friction between the ship and the water by supplying air bubbles to the bottom of the hull. This air lubrication system sprays the air generated through the air generating unit onto the bottom of the hull through the air blowing unit.

At this time, the air generating unit and the air blowing unit are connected to the air supply pipe, and the air supply pipe and the air blowing unit are placed inside the ballast tank of the ship. That is, in order to secure the maximum air injection area, the air blowing unit is placed inside the ballast water tank and connected to the air generating unit through an air supply pipe.

However, since the air blowing unit and air supply pipe are installed inside the ballast water tank, there is a problem in that maintenance is not easy in case of malfunction or damage.

In addition, air blowouts and air supply piping require high specifications because they can corrode due to continuous exposure to seawater inside the ballast water tank.

For technology related to the air lubrication system of ships, please refer to Korean Patent Publication No. 10-2014-0047168 (published on April 21, 2014).

Korean Patent Publication No. 10-2014-0047168 (published on April 21, 2014)

An embodiment of the present invention seeks to provide an air lubrication system for a ship that can effectively protect the air blower and air supply piping disposed inside a ballast water tank by watertightly covering them with a protective block.

According to one aspect of the present invention, an air generating unit that generates air; an air blowing unit that receives the air and sprays it onto the bottom of the hull; an air supply pipe connecting the air generating unit and the air blowing unit to supply the generated air toward the air blowing unit; And a protection block that covers the air blowing part and the air supply pipe disposed inside the ballast water tank in the ship to form a watertight space, preventing the inflow of seawater stored in the ballast water tank. An air lubrication system may be provided.

The protection block is connected to a pipe duct passing through the ballast water tank, has a detection unit that detects seawater flowing into the protection block, and discharges the inflow seawater to the outside through a drain pipe provided in the pipe duct. It may further include a drainage pump and a control unit that controls the drainage pump based on the received signal.

A door may be formed at an intersection between the protection block and the pipe duct to allow workers to enter and exit.

The ship's air lubrication system according to an embodiment of the present invention can effectively protect the air blowing part and air supply piping arranged inside the ballast water tank by watertightly covering them with a protection block.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

Figure 1 shows an air lubrication system for a ship according to an embodiment of the present invention.
Figure 2 shows a protection block connected to a pipe duct in the air lubrication system of Figure 1.
Figure 3 shows the arrangement of the air blowing unit and air supply pipe provided inside the protection block shown in Figure 2.
Figure 4 shows an entrance door formed to allow workers to enter and exit the intersection between the protection block and the pipe duct shown in Figure 3.
Figure 5 is a block diagram showing the control operation when seawater flows into the protection block shown in Figure 2.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments introduced below are provided as examples so that the idea of the present invention can be sufficiently conveyed to those skilled in the art. The present invention is not limited to the embodiments described below and may be embodied in other forms. In order to clearly explain the present invention, parts not related to the description are omitted from the drawings, and in the drawings, the width, length, thickness, etc. of components may be exaggerated for convenience. Like reference numerals refer to like elements throughout the specification.

Figure 1 shows an air lubrication system for a ship according to an embodiment of the present invention.

Referring to Figure 1, the air lubrication system of a ship according to an embodiment of the present invention includes an air generator 110 that generates air, and the air generated by the air generator 110 is supplied to the bottom of the hull. An air supply pipe that connects the air blowing unit 120, the air generating unit 110, and the air blowing unit 120 to supply the air generated by the air generating unit 110 toward the air blowing unit 120. (130) and covers the area around the air blowing unit 120 and the air supply pipe 130 arranged inside the ballast water tank 10 in the ship to form a watertight space, thereby forming a watertight space stored in the ballast water tank 10. It includes a protection block 140 that prevents the inflow of seawater.

The air lubrication system is installed on the hull and sprays air onto the bottom surface (4) of the hull during the operation of the ship (2). The air sprayed onto the bottom surface (4) of the hull forms an air layer on the bottom surface (4) of the hull, thereby reducing the frictional resistance of the hull.

At this time, in the embodiment of the present invention, the facilities of the air lubrication system installed inside the ballast water tank 10 can be protected by watertightly covering them through the protection block 140. Hereinafter, each component will be described in detail.

The air generating unit 110 may include, for example, an air compressor, an air blower, etc., and generates (compressed) air and supplies it to the air blowing unit 120 through the air supply pipe 130. For example, the air generator 110 may be placed on the bow side of the hull, and in the case of an air blower, an electric motor may be used as a driving source, and the supply amount of air delivered can be controlled by controlling the rotation speed of the electric motor. there is.

The air blowing unit 120 receives the air generated by the air generating unit 110 through the air supply pipe 130 and sprays it onto the bottom surface 4 of the hull.

The air blowing unit 120 may include a chamber formed at the bottom of the hull, and the chamber includes one or more air inlets (not shown) through which air flows through the air supply pipe 130, and air introduced through the inlet. One or more air outlets (not shown) are formed to discharge air to the bottom (4) of the hull.

The air blower 120 is, for example, disposed at the center of the ship width on the bow side, so that the compressed air discharged from the air blower 120 can continuously perform a lubricating action while moving toward the stern when the hull moves forward. .

Additionally, the air blowing unit 120 may be disposed, for example, in the longitudinal center of the hull. In this case, the compressed air injected into the bottom of the hull can be discharged in a balanced left and right direction to lubricate the hull.

In addition, the flow rate of air sprayed through the air blowing unit 120 can be controlled by considering the area, shape, and thickness of the required air layer of the bottom surface 4 of the hull.

The air supply pipe 130 is installed outside the ballast water tank 10 to connect the air generating unit 110 installed outside the ballast water tank 10 and the air blowing unit 120 installed inside the ballast water tank 10. It is installed to extend from inside the ballast water tank (10).

The air supply pipe 130 may include a main pipe and a branch pipe. That is, the air supply pipe 130 is connected to the air generating unit 110 through one main pipe, and can be connected to each air blowing unit 120 through a plurality of branch pipes. At this time, although not shown, valves for controlling flow rate and preventing backflow may be installed in each branch pipe.

The protective block 140 is placed inside the ballast water tank 10 in the ship and covers the surroundings of the air blowout portion 120 and the air supply pipe 130 exposed to seawater stored in the ballast water tank 10 to provide watertight protection. By forming a space, the inflow of seawater stored in the ballast water tank (10) is prevented. The protection block 140 may have a rectangular shape, but is not limited to this, and may, for example, be provided in a semicircular shape.

Figure 2 shows the protection block connected to the pipe duct in the air lubrication system of Figure 1, and Figure 3 shows the arrangement of the air blowing part and air supply pipe provided inside the protection block shown in Figure 2. And, Figure 4 shows an entrance door formed to allow workers to enter and exit the intersection between the protection block and the pipe duct shown in Figure 3.

Referring to FIGS. 2 to 4, the above-described protection block 140 may occur when the air blower 120 and the air supply pipe 130 are maintained exposed to seawater inside the ballast tank 10. It can solve problems such as corrosion and damage.

This protective block 140 may be provided in the form of a partition, or may be provided by extending a frame structure such as a girder inside the ballast tank 10 to block the entire double hull.

The portion of the protection block 140 that is in contact with the inner bottom surface 10a (see FIG. 4) of the ballast water tank 10 may be joined by welding or the like. For reference, in Figure 4, for convenience of explanation, the components related to the air supply pipe 130 and the air blowing unit 120 shown in Figures 2 and 3 are omitted.

The protection block 140 may be connected to the pipe duct 20 passing inside the ballast water tank 10. Inside the pipe duct 20, various pipes are installed to supply oil, fresh water, seawater, etc. to various facilities within the ship.

At this time, the protection block 140 according to an embodiment of the present invention may be connected to the pipe duct 20, and thus a cross section may be formed.

Workers can move within the protection block 140 and pipe duct 20 for work such as maintenance. In addition, in case a worker working in the pipe duct 20 wants to move inside the protection block 140, an entrance door ( 180) can be formed.

For example, although not shown, the entrance door 180 may be opened and closed in a sliding manner using a hydraulic device or the like, and may be provided manually or automatically. This access door 180 can prepare for the case where seawater inside the ballast tank 10 flows into the protection block 140 and the pipe duct 20. In addition, entrance doors 180a and 180ab may be provided at each intersection between each protection block 140 and the pipe duct 20. Normally, the door 180 may be maintained in a locked state.

Figure 5 is a block diagram showing the control operation when seawater flows into the protection block shown in Figure 2.

Referring to FIG. 5, the ship's air lubrication system includes a detection unit 150 that detects whether seawater flows into the protection block 140, and seawater flowing into the protection block 140 into the pipe duct 20. It may include a drainage pump 160 that discharges water to the outside through the provided drainage pipe 30, and a control unit 170 that controls the drainage pump 160 based on a signal received from the detection unit 150.

One or more detection units 150 may be installed at set positions inside the protection block 140. For example, when the watertight state inside the protection block 140 is not maintained due to damage to the protection block 140, etc., and there is a change in pressure inside the protection block 140, sea water enters the protection block 140. It is determined that is flowing in and a signal can be transmitted to the control unit 170.

When seawater flows into the protection block 140 and fills up, the drain pump 160 discharges the inflow seawater to the outside through the drain pipe 30 provided in the pipe duct 20.

The control unit 170 controls the drainage pump 160 based on the signal received from the detection unit 150. That is, when the control unit 170 receives a signal notifying the inflow of seawater into the protection block 140 from the detection unit 150, it operates the drainage pump 160 to drain the seawater flowing into the protection block 140. work can be performed.

In addition, the control unit 170 closes the above-described door 180 based on the signal received from the detection unit 150, so that the seawater flowing in through the protection block 140 enters the pipe duct 20. You can block the flow. At this time, when the door 180 operates in a sliding manner by a hydraulic device, the control unit 170 can close the door 80 by controlling the hydraulic device.

In the above, specific embodiments are shown and described. However, the present invention is not limited to the above-described embodiments, and those skilled in the art can make various changes without departing from the gist of the technical idea of the invention as set forth in the claims below. You will be able to.

10: ballast tank 20: pipe duct
110: air generating unit 120: air blowing unit
130: air supply piping 140: protection block
150: Sensing unit 160: Drain pump
170: Control unit 180: Door

Claims (3)

An air generating unit that generates air;
an air blowing unit that receives the air and sprays it onto the bottom of the hull;
an air supply pipe connecting the air generating unit and the air blowing unit to supply the generated air toward the air blowing unit; and
It includes a protection block that covers the surroundings of the air blowing unit and the air supply pipe disposed inside the ballast water tank in the ship to form a watertight space, preventing the inflow of seawater stored in the ballast water tank,
The protection block is,
Cross-connected with a pipe duct that passes through the ballast water tank and includes a drainage pipe,
An air lubrication system for a ship in which an entrance door is formed at an intersection between the protection block and the pipe duct to allow workers to enter and exit. delete According to paragraph 1,
A detection unit that detects whether seawater flows into the protective block,
a drain pump that discharges the inflow seawater to the outside through a drain pipe provided in the pipe duct;
Air lubrication of a ship further comprising a control unit that operates the drain pump based on a signal received from the detection unit and closes the door to block seawater flowing into the protection block from flowing into the pipe duct. system.

Images