KR20200063398A - air lubrication device for ships - Google Patents

Abstract

Disclosed is an air lubrication device for a ship. According to an embodiment of the present invention, the air lubrication device for a ship includes: a fluid compressor; an ejector suctioning air by using fluid compressed through the fluid compressor as the driving fluid and mixing the air with the fluid compressed through the fluid compressor to eject the same; and a spray nozzle spraying a mixture of the fluid and the air passing through the ejector to a surface of a hull in contact with seawater. Therefore, the air lubrication device for a ship can reduce a cost for allowing friction resistance between the hull and the seawater to be reduced through bubbles.

Description

Air lubrication device for ships

The present invention relates to a marine air lubrication device.

Some ships are equipped with air lubrication devices to reduce frictional resistance between the hull and seawater.

The air lubricating device causes high pressure air to be blown out into the water from the hull surface contacting the sea water, thereby forming bubbles in the water on the hull surface side.

The bubbles formed through the air lubrication device form an air film having a friction coefficient smaller than that of seawater on the surface of the hull, thereby suppressing a decrease in propulsion of the hull due to friction with seawater.

Usually, the air lubrication device is provided with an air compressor to provide compressed air at high pressure, and the compressed air is blown around the hull through an air outlet to form bubbles around the hull.

On the other hand, in consideration of the draft pressure of the hull acting on the air blowing port, it is necessary to ensure that the blowing pressure of air by the air compressor is sufficiently secured in order to smoothly blow air through the air blowing port.

However, for this purpose, there is a limit in reducing the cost for driving the air lubricating device because an air compressor with a large compression capacity is employed or energy consumption is increased due to the operation of the air compressor.

Registered Patent Publication No. 10-1733875 (released on Nov. 7, 2016)

An object of the present invention is to provide an air lubricating device for ships that can reduce costs associated with reducing frictional resistance between the hull and seawater through air bubbles.

Air lubrication device for a vessel according to an embodiment includes a fluid compressor; An ejector that sucks air by using the fluid compressed through the fluid compressor as a driving fluid, and mixes and sends air to the fluid compressed through the fluid compressor; And an injection nozzle that ejects the mixture of the fluid and air that has passed through the ejector to the surface of the hull in contact with sea water.

The fluid compressor includes a sea water pump, and the ejector sucks air using sea water supplied through the sea water pump as a driving fluid, forms air mixed water mixed with air in the sea water, and transmits the air. The lubricating device may further include a bubble size adjuster for adjusting the size of air bubbles in the air mixture water sent through the ejector.

The marine air lubrication device includes a reservoir for storing the air mixture; A discharge pump for discharging the air mixed water stored in the reservoir may be further included.

The reservoir and the discharge pump may be provided between the ejector and the bubble size regulator.

The reservoir and the discharge pump may be provided between the bubble size regulator and the injection nozzle, and a bubble generator may be provided in the reservoir.

A bubble generator may be provided in the reservoir.

The air lubrication device for ships may further include an air compressor; the air compressor may compress air sucked into the ejector or provide compressed air with the air mixed water passing through the ejector.

The fluid compressor includes a first air compressor, and the ejector draws high pressure air compressed by the first air compressor as a driving fluid to inhale low pressure air that is relatively low pressure compared to the high pressure air to obtain the high pressure. The mixed air to which the low pressure air is added may be sent to the air.

The air lubrication device for ships may further include a second air compressor, and the second air compressor may compress the low pressure air sucked into the ejector.

According to the air lubrication system for ships according to one aspect, air bubbles can be smoothly formed between the hull and the seawater even when the air compressor is not used or energy consumption is reduced due to the operation of the air compressor. The cost associated with reducing frictional resistance between seawater can be reduced.

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.

1 is a view showing the structure of a ship equipped with a ship air lubrication device according to the first embodiment.
2 is a configuration diagram showing a modification of the air lubrication system for a ship according to the first embodiment.
3 is a block diagram showing another modification of the air lubrication system for a ship according to the first embodiment.
4 is a block diagram showing the configuration of a marine air lubrication device according to a second embodiment.

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 in order to sufficiently convey the spirit of the present invention to those skilled in the art to which the present invention pertains. The present invention is not limited to the embodiments described below and may be embodied in other forms. In order to clearly describe the present invention, parts not related to the description are omitted in the drawings, and in the drawings, the width, length, and thickness of components may be exaggerated for convenience. Throughout the specification, the same reference numbers refer to the same components.

1 and 2 show the structure of the ship's air lubrication device 4 and the ship 1 having the same, according to the first embodiment.

1 and 2, the ship (1) is provided with a hull (2), a screw (3) for propulsion of the hull (2), and the like, the ship air lubrication device (4) is a hull (2 ).

The marine air lubrication device (4) includes a fluid compressor and an ejector (20) that sucks air by using the fluid compressed through the fluid compressor as a driving fluid.

The fluid compressor includes a seawater pump 10, and the ejector 20 can suck air by using seawater supplied through the seawater pump 10 as a driving fluid.

The seawater pump 10 and the ejector 20 are provided on the seawater supply line (a), and an air supply line (b) may be connected to the suction part 21 of the ejector 20.

The ejector 20 sucks air through the suction unit 21 in a state in which the seawater pumped through the seawater pump 10 is depressurized, so that air sucked through the suction unit 21 without additional energy is used. It is mixed with sea water to form bubbles.

In the process of passing through the ejector 20, seawater forms air mixed water in which bubbles formed by air infiltration are mixed, and the ejector 20 continuously transmits the air mixed water through the seawater supply line (a). do.

As the seawater pump 10, a dedicated pump provided to be used only for the ship's air lubrication device 4 is used, or a pump installed in the ship 1 for other purposes such as a fire extinguishing pump to perform the pumping action only in special circumstances can be used. It might be.

Most of the fire extinguishing pumps are not normally used, but are often driven for pumping sea water only when the ship is in fire. It can be fully utilized.

In addition, the ship air lubrication device (4) is in contact with the sea water through the bubble size adjuster (30) for adjusting the bubble size of the air mixture water sent through the ejector (20), and the bubble size regulator (30) It is provided with a spray nozzle (40) for ejecting to the surface of the hull (2).

The bubble size regulator 30 may include a housing 31 provided to allow air mixture water to pass through, and a porous plate 32 provided in the housing 31 with a plurality of micropores.

Therefore, the air mixture water sent through the ejector 20 is shredded by the micropores of the perforated plate 32 in the process of passing through the housing 31 to form micro-sized fine bubbles. At this time, the air mixing water passing through the perforated plate 32 may further activate the generation of air bubbles in the process of colliding with the perforated plate 32 between the micropores.

The air mixture water that has passed through the bubble size regulator 30 is finally ejected around the hull 2 through the injection nozzle 40.

Accordingly, an air film is formed on the surface of the hull that comes into contact with sea water through air bubbles contained in the air-mixed water. This will prevent the propulsion from falling.

In this way, the air lubrication device 4 for ships according to the first embodiment can form an air film around the hull 2 by discharging the seawater together with the seawater through the air injected into the seawater without an air compressor. , It is possible to reduce the cost of reducing the frictional resistance between the hull (2) and seawater through air bubbles.

2 and 3 show the configuration of the ship air lubrication devices 4a, 4b according to a modification of the first embodiment.

2 and 3, the marine air lubrication device (4a, 4b) is a reservoir 50 for the storage of air mixed water, and the discharge pump for discharging the air mixed water stored in the reservoir 50 ( 60) may be further provided.

The air lubricating devices for ships 4a and 4b discharge air bubbles discharged outside the hull 2 through a method of discharging air mixed water in which air bubbles are mixed in the reservoir 50 to the discharge pump 60. The pressure can be adjusted.

In order to control the discharge amount of air bubbles by using the reservoir 50, the air lubricating devices 4a and 4b for ships may further include an air compressor 70 so as to ensure sufficient air bubbles.

The air compressor 70 is installed on the air supply line (b) to compress the air sucked into the ejector 20, thereby increasing the amount of air mixed in the sea water to increase the amount of air bubbles discharged outside the hull 2. have.

At this time, since the intake pressure for air intake acts on the ejector 20, the air compressor 70 can be driven by relatively little energy while increasing the amount of bubbles contained in the air mixture.

Of course, the air compressor 70 can also increase the amount of air bubbles discharged to the outside of the hull 2 through a method of supplying compressed air to the seawater supply line (a) passing through the ejector 20.

As shown in Figure 2, the reservoir 50 and the discharge pump 60 is between the bubble size regulator 30 and the injection nozzle 40 so as to be able to control the discharge amount of bubbles immediately before being discharged to the outside of the hull 2 It may be provided on the seawater supply line (a).

At this time, the reservoir 50 is installed with a bubble generator 51 to compensate for the reduction in the amount of bubbles in the reservoir 50, so that the amount of bubbles can be maintained even in the reservoir 50. The bubble generator 51 may be provided through an ultrasonic vibrator or the like.

In addition, as shown in Figure 3, the reservoir 50 and the discharge pump 60 may be provided between the ejector 20 and the bubble size regulator 30.

In the arrangement structure of the reservoir 50 and the discharge pump 60, it is possible to activate the bubbles while adjusting the size of the bubbles through the bubble size adjuster 30 while the discharge pressure of the bubbles is adjusted. ) When the amount of bubbles in the air mixture is reduced during the process of staying inside, the amount of bubbles can be compensated before being discharged outside the hull 2 without the bubble generator 51. Of course, at this time, the bubble generator 51 may be installed in the reservoir 50 to further promote the activating action of the bubbles.

On the other hand, Figure 4 shows the configuration of the ship air lubrication device 5 according to the second embodiment.

As shown in FIG. 4, in this embodiment, the marine air lubrication device 5 includes a fluid compressor, an ejector 20 and an injection nozzle 40. The fluid compressor includes a first air compressor (80), and the ejector (20) uses high-pressure air compressed through the first air compressor (80) as a driving fluid to inhale air that is relatively low pressure, thereby increasing pressure and pressure. It is possible to blow out mixed air in which low pressure air is mixed. And the injection nozzle 40 includes an injection nozzle 40 for ejecting the mixed air passing through the ejector 20 to the surface of the hull 2 in contact with the external sea water.

The first air compressor 80 is provided on the high pressure air supply line (a) to compress the air supplied to the ejector 20 to high pressure to form a high pressure air flow.

And the low pressure air supply line (b) is connected to the suction part 21 of the ejector 20, and the second air compressing the air at a relatively lower pressure than the first air compressor 80 is connected to the low pressure air supply line (b). Compressor 90 may be provided.

This embodiment is not limited to this. Air of relatively low pressure than that of the first air compressor 80 through the low air supply line (b), such as removing the second air compressor (90) and allowing the low air supply line (b) to directly communicate with the atmosphere. The second air compressor 90 can be selectively employed within a range such that is supplied.

In the process of the high pressure air compressed through the first air compressor 80 passing through the ejector 20, a negative pressure is formed inside the ejector 20, and accordingly the low pressure air supply line (b) and the ejector 20 Through the suction unit 21, air having a lower pressure that achieves a relatively lower pressure is sucked in than the air compressed by the first air compressor 80.

Accordingly, as the air of high pressure passing through the ejector 20 joins the low pressure air sucked through the suction unit 21, the amount of air blown out of the hull 2 through the injection nozzle 40 increases. , Due to this, it is possible to secure a sufficient amount of air bubbles for reducing the frictional resistance around the hull (2).

The air lubricating device 5 for ships constructed as described above is capable of reducing the power of the first air compressor 80 by the amount of air additionally sucked through the ejector 20, and thus is compressed using only the first air compressor 80. Compared to the case where the supplied air is supplied to the injection nozzle 40, it is possible to increase the amount of air bubbles around the hull 2 with relatively little power.

In the above, specific embodiments have been illustrated and described. However, the present invention is not limited to the above-described embodiments, and those skilled in the art to which the invention pertains can perform various changes without departing from the gist of the technical spirit of the invention described in the claims below. Will be able to.

1: ship 2: hull
4: Marine air lubrication system 10: Sea water pump
20: ejector 21: suction
30: bubble size adjuster 40: spray nozzle

Claims (9)

Fluid compressor;
An ejector that sucks air by using the fluid compressed through the fluid compressor as a driving fluid, and mixes and sends air to the fluid compressed through the fluid compressor;
And an injection nozzle for ejecting the mixture of the fluid and air passing through the ejector to the surface of the hull in contact with the sea water. According to claim 1,
The fluid compressor includes a sea water pump,
The ejector intakes air by using the seawater supplied through the seawater pump as a driving fluid, and forms and transmits air mixed water in which air is mixed with the seawater,
And an air bubble size regulator provided between the ejector and the injection nozzle to control the size of air bubbles in the air mixture water sent through the ejector. According to claim 2,
A reservoir for storing the air mixture;
And a discharge pump for discharging the air mixed water stored in the reservoir. According to claim 3,
The reservoir and the discharge pump are air lubrication devices for ships provided between the ejector and the bubble size regulator. According to claim 3,
The reservoir and the discharge pump are provided between the bubble size regulator and the injection nozzle,
Air reservoir for ships provided with a bubble generator in the reservoir. According to claim 3,
Air reservoir for ships provided with a bubble generator in the reservoir. According to claim 2,
It further includes an air compressor;
The air compressor is a marine air lubrication device for compressing air sucked into the ejector or providing compressed air with the air mixed water passing through the ejector. According to claim 1,
The fluid compressor includes a first air compressor,
The ejector sucks low-pressure air that is relatively low-pressure than the high-pressure air by using high-pressure air compressed through the first air compressor as a driving fluid, and sends mixed air with the low-pressure air added to the high-pressure air. Air lubrication system for ships. The method of claim 8,
Further comprising a second air compressor;
The second air compressor is a marine air lubrication device for compressing the low pressure air sucked into the ejector.

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