KR101214239B1 - Structure for preventing inflow oil and rubbish - Google Patents

Abstract

The present invention relates to a structure for preventing oil and soil inflow, comprising: a buoyancy unit having a floating body having a circular cross section and floating on the water surface, and a skirt unit connected to the lower side of the buoyancy unit and blocking oil inflow on the water surface. It is installed on the bottom of the skirt portion, the first ballast portion with a chain built so that the skirt portion is horizontally and stably float on the surface, and is installed at the bottom of the first ballast portion, In order to prevent the influx of infiltrate, a contaminant blocking portion composed of at least one double fiber barrier membrane and the contaminant blocking portion are installed at the bottom of the contaminant blocking portion, and the chain is disposed so that the contaminant blocking portion is horizontal and stably floats on the water surface. By including the second ballast part, it is possible to prevent the inflow of oil on the water surface and the inflow of algae or contaminants below the water surface. To which there is an effect that can maximize the effectiveness of the installation and reduces the management time and costs.

Description

Oil and dirt ingress prevention structure {STRUCTURE FOR PREVENTING INFLOW OIL AND RUBBISH}

The present invention relates to a structure for preventing oil and soil inflow, and more particularly, to prevent the inflow of oil on the surface of water and the inflow of algae or soil on the surface of water, and to reduce installation and maintenance time and to reduce costs. It relates to an oil and dirt ingress prevention structure to maximize the utility.

In general, oil spilled on the sea due to stranding of the ship or various sea accidents is spread over a wide range of sea pollution due to waves, etc., so that marine pollution caused by the spilled oil The destruction of the ecosystem causes the loss of fish stocks and the destruction of fish farms or farms, which not only causes huge damage to fisheries but also damages the tourism industry.

In this way, a general oil fence having a function of preventing oil spreading in an oil spill or a risk area or an accident area and helping to recover algae, suspended garbage and contaminants can be installed.

In addition, the oil fence is installed in the river in which the intake port of the intake station is located in order to prevent the oil and floats which may float on the water surface from entering the intake port.

However, the oil fence has a disadvantage in that it can only block oils and other suspended substances having a specific gravity lower than that of water on the surface of water, and cannot block algae under the surface of water.

Therefore, in the related art, separate products having functions of oil shutoff and algae shutoff have a problem in that a large amount of time and excessive cost are generated because they must be separately installed and managed at predetermined intervals on the water surface.

The present invention has been made to solve the above problems, an object of the present invention can prevent the inflow of oil on the water surface and the inflow of algae or contaminants under the water at the same time, reducing the installation and maintenance time and cost To provide an oil and contaminant prevention structure to maximize the utility of.

One aspect of the present invention to achieve the above object, the buoyancy portion is floating on the water surface is a floating body having a circular cross section; A skirt portion connected to the lower side of the buoyancy portion and blocking the inflow of oil on the water surface; A first ballast part installed at a lower end of the skirt part and having a chain embedded therein to keep the skirt part horizontal and stably float on the water surface; It is installed on the lower end of the first ballast portion, the soil blocking portion made of at least one double fiber barrier membrane in order to prevent the inflow of algae or soil under the water surface; And a second ballast part installed at a lower end of the contaminant blocking part and having a chain so that the contaminant blocking part is horizontal and stably floats on the surface of the contaminant.

Here, polyester (PET) fabric is installed to surround the outer peripheral surface of the float; And it is installed to surround the outer circumferential surface of the polyester (PET) fabric, it is preferable to further include a PVC tarpaulin fabric coated with a PVC coating liquid on the surface of the polyester (PET) fabric in order to increase the waterproofness and durability.

Preferably, the double fiber barrier layer of the soil blocking unit may be integrally formed by overlapping a first fiber barrier layer in the form of a cell mesh and a second fiber barrier layer in the form of a hexa pattern.

Preferably, one end of the soil blocking portion, in which one oil and the soil inflow preventing structure is connected to the other oil and the soil inflow preventing structure, in order to prevent the algae or the waste water under the water from counting, is longer than one end of the buoyancy portion. Can be formed.

Preferably, a connection portion is formed at both ends of the buoyancy portion and the soil blocking portion so that one oil and soil contamination preventing structure is connected to the other oil and soil contamination preventing structure.

Preferably, at least one tension belt fixed in the longitudinal direction of the skirt portion or the soil blocking portion may be further provided.

Preferably, at least one auxiliary tension belt fixed to the width direction of the soil blocking portion may be further provided.

According to the oil and dirt inflow prevention structure of the present invention as described above, it is possible to simultaneously prevent the inflow of oil on the water surface and the inflow of algae or dirt on the water surface, and the reduction of installation and maintenance time and cost reduction There is an advantage to maximize the utility.

In addition, according to the present invention, the performance of the oil blocking is continuously maintained by the skirt portion and the ballast portion installed at the bottom of the buoyancy portion even in the state that the algae or contaminants, etc. are collected in the soil blocking portion and the function of the soil blocking portion is deteriorated. There is an advantage to this.

1 is a front view and a cross-sectional view for explaining the oil and dirt intrusion prevention structure according to an embodiment of the present invention.
2 is a perspective view showing various examples of the connection member applied to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, embodiments of the present invention illustrated below may be modified in many different forms, and the scope of the present invention is not limited to the embodiments described below. The embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art.

1 is a front view and a cross-sectional view for explaining the oil and dirt intrusion prevention structure according to an embodiment of the present invention, Figure 2 is a perspective view showing various examples of the connection member applied to an embodiment of the present invention.

1 and 2, the oil and dirt inflow prevention structure 10 according to an embodiment of the present invention, largely buoyancy portion (Freeboard) 100, skirt portion (Skirt) 200, the first And a second ballast part (Ballast) 300a and 300b and a contaminant blocking part 400.

Here, the buoyancy portion 100 is embedded with a floating body 110 having at least one circular cross section (for example, cylindrical or cylindrical) in order to float on the water surface, is installed to surround the outer peripheral surface of the floating body 110 The first sheet 120 and the second sheet 130 installed to surround the outer circumferential surface of the first sheet 120 may be further provided.

At this time, the floating body 110 is made of, for example, a material such as styrofoam or EVA (Ethylene Vinyl Acetate), which is excellent in absorbing shock and widely used as a buffer in the intermediate form of rubber and resin. Product.

On the other hand, the first sheet 120 is preferably made of, for example, a polyester (polyethylene terephtalate, PET) fabric, the second sheet 130 is preferably made of, for example, PVC (polyvinyl chloride) tarpoline (tarpoline) fabric .

At this time, the PVC tarpaulin fabric is made by applying a PVC coating liquid to the surface of the polyester (PET) fabric to increase the waterproofness and durability, it is possible to effectively block when oil spills on the water surface.

The skirt 200 is connected to the lower side of the buoyancy unit 100, and performs a function of blocking the oil flowing on the water surface and the oil passing under the water surface.

The skirt portion 200 may be easily installed in seawater or the inner surface of water by introducing materials such as PVC, PE (Polyethylene), PP (Polypropylene), as well as inflow of oil and algae or contaminants. The prevention function is improved, resulting in improved workability and maintainability.

On the other hand, as a method of connecting the buoyancy portion 100 and the skirt portion 200, for example, by using a high frequency treatment to fused the fabric to each other to form a high frequency treatment portion that can be combined using a sewing means Those skilled in the art will readily know.

The first and second ballast parts 300a and 300b are respectively installed at the upper and lower ends of the soil blocking part 400 respectively, and the double first and second ballast parts 300a and 300b are buoyancy parts. (100), the skirt 200 and the dirty water blocking unit 400 facilitates close contact with the water surface can effectively reduce the effect of the blue, as well as the dirty water blocking unit 400 can be more unfolded, The overall effect is to be less affected by the flow of water.

The first ballast portion 300a is installed between the lower end of the skirt portion 200 and the upper end of the dirty water blocking portion 400, so that the skirt portion 200 is horizontally and stably floats on the water surface. , The chain 310a for loading the oil is blocked so that the skirt 200 for blocking the oil sags downward.

In addition, the second ballast portion 300b is installed at the lower end of the contaminant blocking portion 400, that is, the contaminant blocking portion 400 to maintain a horizontal and stably float on the surface of the contaminated water blocking portion The chain (310b) is built to maintain a flat shape without wrinkles or bending throughout the (400).

The first and second ballast parts 300a and 300b are preferably formed to enclose the chains 310a and 310b by using a fabric of the same or similar material as that of the skirt part 200, and the skirt part 200. And the first ballast portion 300a, the first ballast portion 300a, the soil blocking membrane 400, the soil blocking membrane 400, and the second ballast portion 300b are connected to each other. It will be readily apparent to those skilled in the art that the fabrics may be fused to each other to form a high frequency treatment unit and may be combined using sewing means.

The contaminant blocking part 400 is installed between the first and second ballast parts 300a and 300b, that is, the lower end of the first ballast part 300a and the upper end of the second ballast part 300b and is below the water surface. In order to prevent the influx of algae or contaminants of the at least one double fiber barrier membrane 410 is composed.

In this case, the double fiber barrier membrane 410 of the soil blocking unit 400 is a first fiber barrier membrane 411 and a first fiber barrier membrane 411 in the form of a cell fiber, that is, a cell mesh. In order to prevent the algae or contaminant particles from passing through at least one side thereof, a sandwich mesh, ie, a second fiber barrier layer 412 having a hexa pattern, is formed to be integrally formed. The materials of the first and second fiber barrier membranes 411 and 412 are preferably woven from polyester or polyethylene fibers.

On the other hand, in order to prevent the algae or dirt from counting down the surface of one end of the oil and dirt inflow prevention structure 10 is connected to the other oil and dirt intrusion prevention structure 400 It is preferably formed longer than one end of the buoyancy portion (100).

In addition, at least one tension belt fixed in the longitudinal direction of the skirt 200 and / or the dirt blocking portion 400 in order to improve the durability against the tensile load of the entire oil and dirt prevention structure 10 ( 500 may be further provided. The tension belt 500 is provided with a tensile force in the longitudinal direction of the oil and dirt intrusion prevention structure 10 to exert its function even in adverse conditions.

In addition, when a plurality of tension belts 500 are provided, the tension belt 500 may be installed in parallel with each other so as to be spaced apart at regular intervals in the width direction of the skirt 200 and / or the soil blocking portion 400. At least one auxiliary tension belt 510 may be further provided to be fixed to the width direction of the 400, that is, perpendicular to the tension belt 500, to reinforce the tension belt 500 or to distribute the tensile load.

On the other hand, both ends of the tension belt 500 may be further provided with a belt connecting portion 520 for connecting with the tension belt provided in the other adjacent oil and dirt prevention structure.

The belt connection part 520 is connected to, for example, a connector 522, such as a “U” shaped round bar, on a metal fixing plate 521 fixed to both ends of the tension belt 500 using a bolt B or the like. It may be manufactured by welding, for example, it may be connected to each other in the connector 522 by using a shackle or a connecting member (610a to 610c (see FIG. 2), etc.) described later.

At this time, the connection members 610a to 610c connect the tension belt 500 provided in one oil and soil inflow preventing structure 10 and the tension belt provided in the other oil and soil inflow preventing structure to each other. It serves to carry on the tensile force.

Furthermore, the connection part 600 is further provided at both ends of the buoyancy part 100 and the dirt blocking part 400 so that one oil and dirt preventing structure 10 is connected to the other oil and dirt preventing structure. Can be.

That is, when the contaminated area is large, the oil and soil inflow preventing structure 10 is provided at both ends of the buoyancy part 100 and the soil blocking part 400 so as to be connected to other oil and soil inflow preventing structures. Connection 600 is provided.

The connection part 600 uses a zipper means to prevent the inflow of oil and contaminants introduced into the connecting gap, or a plurality of oil and contaminant intrusion prevention structures 10, 10 using, for example, eyelet or "Z" connector means. 'And 10 ") are preferably connected to each other, but are not limited thereto, and the connection part 600 may include holes formed at both ends of the buoyancy part 100 and the soil blocking part 400 at a predetermined interval. And a connector (not shown) which is inserted into the hole and inserted into a hole (not shown) formed in another oil and dirt preventing structure, and is in close contact with each other.

At this time, the connection member may be a variety of forms, as shown in Figure 3, the threaded opening and closing ring (610a), or both ends having an opening and closing opening and closing screwed to the ring-shaped body made of metal material, or both ends S-shaped ring 610b is formed to be hooked to the hook, carabiner type ring 610c hingedly opened and closed by the elastic force of the spring to the ring-shaped body made of a metal material may be used.

On the other hand, after the "U" shaped round bar 720 is welded to the fixing plate 710 of the metal material manufactured by using an anchor bolt 730 or the like anchor fixing member 700 is fixed to the lower end of the auxiliary tension belt 520 ) May be further provided to fix one end of the rope 800 to the "U" shaped round bar 720 of the anchor fixing member 700, and to fix the anchor branch-type anchor 900 to the other end of the rope 800 After fixing the anchor type anchor 900 to the bottom of the water surface, there is an effect that can prevent the movement of the oil and contaminants inflow prevention structure 10 even in the flow of strong water.

At this time, the anchor fixing member 700 is preferably fixed to the lower end of the auxiliary tension belt 520, but is not limited to this, for example, any portion of the skirt portion 200 or dirty blocking portion 400. Can be fixedly installed without

Although a preferred embodiment of the oil and dirt intrusion prevention structure according to the present invention was described above, the present invention is not limited to this, but various modifications within the scope of the claims and the detailed description of the invention and the accompanying drawings. It is possible to carry out by this and this also belongs to the present invention.

100: buoyancy part,
200: skirt portion,
300a and 300b: first and second ballast portions,
400: soil blocking part,
500: tension belt,
600: connection,
700: anchor fixing member,
800: rope,
900: anchor type anchor

Claims (7)

A buoyancy part which is floated on the surface of a floating body having one circular cross section;
A skirt portion connected to the lower side of the buoyancy portion and blocking the inflow of oil on the water surface;
A first ballast part installed at a lower end of the skirt part and having a chain embedded therein to keep the skirt part horizontal and stably float on the water surface;
It is installed on the lower end of the first ballast portion, the soil blocking portion made of at least one double fiber barrier membrane in order to prevent the inflow of algae or soil under the water surface; And
The oil and dirt intrusion prevention structure is installed at the bottom of the dirt blocking portion, the second ballast portion is built in the chain so that the water blocking portion is horizontally and stably float on the surface.
The method according to claim 1,
Polyester (PET) fabric is installed to surround the outer peripheral surface of the float; And
It is installed to surround the outer circumferential surface of the polyester (PET) fabric, oil and stains characterized in that it further comprises a PVC tarpaulin fabric coated with a PVC coating liquid on the surface of the polyester (PET) fabric to increase the waterproofness and durability Water ingress prevention structure.
The method according to claim 1,
The double fiber barrier layer of the soil blockage part is an oil and soil inflow prevention structure, characterized in that the first fiber barrier membrane in the form of a cell mesh and the second fiber barrier membrane in the form of a hexa layer are formed integrally with each other. .
The method according to claim 1,
In order to prevent the algae and the soil from leaking out of the water, one end of the oil and dirt blocking structure is connected to the other oil and dirt preventing structure is formed one end of the buoyancy is longer than one end Oil and dirt intrusion prevention structure characterized in.
The method according to claim 1,
Oil and dirt inflow prevention structure characterized in that it is further provided with a connection portion formed on both sides of the buoyancy portion and the dirt blocking portion so that one oil and dirt inflow prevention structure is connected to the other oil and dirt inflow prevention structure.
The method according to claim 1,
At least one tension belt which is fixed in the longitudinal direction of the skirt portion or the soil blocking portion is characterized in that the oil and soil contamination prevention structure.
The method according to claim 1,
At least one auxiliary tension belt which is fixed in the width direction of the dirty water blocking portion is further provided, oil and dirt intrusion prevention structure.

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