KR102084406B1 - Antirust film using steel pipe and rubber sleeve - Google Patents

Abstract

The present invention relates to a contamination prevention film using a steel pipe and a rubber sleeve, having high durability to withstand heavy waves. The contamination prevention film using a steel pipe and a rubber sleeve of the present invention comprises: a floating part (5) formed on the top; and a film body part (40) located underwater under the floating part (5), wherein a rubber sleeve or a soft urethane hose are alternately arranged at the steel pipe.

Description

Anti-rust film using steel pipe and rubber sleeves {Antirust film using steel pipe and rubber sleeve}

The present invention relates to an antifouling film, which is installed in the form of a membrane around the water in the vicinity of the source of pollution in order to prevent the spread of soil and pollutants generated during river and marine civil engineering work to prevent the spread of pollutants Although the fluid was used as styrofoam, in the present invention, since the floating body is formed by using a steel pipe pipe and rubber sleeve or soft urethane hose, it has high durability and can withstand severe blue waves, can be used for a long time, and the waste disposal cost during demolition is remarkable. The present invention relates to an antifouling film using a steel pipe and a rubber sleeve which are reduced and have an improvement effect in an environmental aspect.

In general, contaminated ground and rivers such as landfills, dredging, sandstones and various protective works, construction of dikes and embankments, installation of segmented or temporary barriers, etc. Water is generated, and such contaminated water is harmful to the environment, so it is common to install a contaminant prevention facility in order to prevent the transport and diffusion to the surrounding water.

In deeper lakes, rivers, or seas, water is stratified by several layers depending on depth. The upper layer of water is called the surface layer. The surface layer is a layer in which dense water is present. The surface layer is mixed evenly under the influence of the wind blowing over the surface of the water and the relatively high flow rate. The middle layer is a layer below the surface layer, and has a constant temperature gradient depending on the water depth. In the middle layer, convection of water occurs due to the temperature difference between the upper and lower sides, and the flow velocity is relatively high. In addition, the deep water layer is a layer having the highest density of water, and is a stable layer in which the water temperature is almost uniform and almost no up and down convection of water occurs. In the above water layer, the high water temperature forms the surface layer in summer, and when the season changes to winter, the water reversal phenomenon occurs in which the water of 4 ° C or lower temperature forms the surface layer.

The main cause of water pollution during underwater or waterfront construction is turbid water caused by soils generated during construction. It has been found that soils causing turbidity exist for a long time in the middle layer and spread to the surrounding water through the middle layer. This phenomenon is confirmed that the vertical convection of water in the middle layer is active, so that the sediment is not settled quickly, it is widely spread to the surrounding area by the relatively high horizontal flow rate. As the soil does not settle quickly and spreads widely to the surrounding area, turbid water adversely affects the ecosystem around the construction area.

In order to prevent the turbid water from spreading to the area surrounding the construction, a pollution barrier is installed in the water. The pollution barrier forms a buoyancy body on the top of the pollution prevention membrane made of forge or the like that isolates marine suspended matter such as earth and sand, Combining with the lower portion of the buoyancy body to form a fouling prevention film in the form of a film hanging in water.

As described above, the prior art related to the antifouling film according to the tarpaulin packaging material surrounding the outside of the floating body having buoyancy such as cylindrical styrofoam in the integrated floating means of the antifouling device in Korea Patent Publication No. 10-1050975 In order to solve the problem, there is disclosed a floating packing material and a stain preventing device for a stain preventing device for the purpose of providing a floating packing material with improved material and structure of the packaging material surrounding the outside of the floating body, and registered in Korea. No. 10-1391908 of the membrane member and the membrane member for preventing the spreading of the dirty material is installed in one side of the membrane member in a left and right direction, a plurality of the control reinforcing member and the membrane member formed in the vertical direction To a plurality of eyelets formed on the anti-fouling film including a buoyancy member installed on the upper portion and a plurality of control reinforcing members, respectively It is inserted into each, underwater, including a plurality of variable wires and weights connected to the bottom of the anti-fouling film to deform the bottom of the anti-fouling film in a form corresponding to the ground by expanding or folding the plurality of adjustment reinforcing members, respectively, in the vertical direction An anti-fouling apparatus installed in the present disclosure is disclosed in Korean Patent Publication No. 10-1147553, which includes a plurality of brackets and a plurality of buoyancy pipes inserted into a buoyancy pipe through-holes of the bracket, and a lower part of the floating body. Contamination prevention method consisting of an antifouling film consisting of a floating anti-top pipe installed in the upper portion of the upper portion and the impact resistant diagonal pipes installed on the inner and outer sides of the floating upper portion and a hand-operated hand winch, a plurality of anti-fouling films installed on the upper portion of the float. Disclosed in the Korean Patent Publication No. 10-1449940 The buoyancy pipe is installed in the central hole of the lower part of the racket, and it is installed using the bracket and the buoyancy pipe to assemble the lower part of the float. The upper part of the bracket is composed of the upper part of the float provided as a scaffold, and the upper part of the scaffold. Install the submerged membrane fixing stand at a predetermined interval, and install the submerged membrane provided with the submerged membrane rim through the upper surface and the upper portion of the float, and the upper portion is formed by a plurality of submerged membrane rim through the edge of the submerged membrane. It is connected to the scaffold of the upper part of the fluid with a tie, and the lower part is prefabricated and moved to the desired place by raising the anchor lowered to the four places of the floating body. Disclosed is an underwater membrane body vertical holding device for fixing anchors at four locations of a fluid and a mobile stain prevention method using the same. There.

However, the above-mentioned prior arts generally do not mention the configuration of forming the floating part by using a steel pipe, a rubber sleeve or a soft urethane hose in the floating part in the anti-fouling film composed of the floating part, the membrane part, and the lower part. The present invention is configured by using a steel pipe, rubber sleeve or soft urethane hose in the floating body constituting the antifouling film.

The present invention provides a plurality of steel pipes, which are the uppermost part of the floating body part and the membrane body part and the lower part, which are generally formed from the upper part of the contaminated antifouling film which is installed to prevent the underwater diffusion of the sewage or suspended water containing suspended solids. An object of the present invention is to provide an antifouling film formed by using a pipe, a rubber sleeve or a soft urethane hose.

In addition, by inserting a steel wire inside the rubber sleeve forming the floating body portion, the durability is dramatically increased, so that the floating body can withstand continuous blue for a long time, and can be reprocessed after the end of the use period of the anti-fouling film, waste treatment costs The purpose is to provide an antifouling film that is configured to save the cost.

As a solution of the antifouling film using the steel pipe pipe and rubber sleeve aimed at the present invention, the main body 1 of the antifouling film installed to prevent the diffusion of the pollutant in the water consists of an elongated cylindrical shape floating on the water surface. It is located in the water which is the upper end of the floating body portion 5 and the lower end of the floating body portion 5 formed in the form of a film hanging in the water, and the membrane body portion constituting the reinforcing belt 45 at regular intervals in the vertical direction 40 is formed in the horizontal direction along the lower end of the membrane body portion 40 formed in the film form and consists of a lower end portion 50 which acts as a weight so that the membrane body portion 40 does not flow.

The floating body portion 5 formed at the uppermost end is cylindrical in shape and closed in a disc shape at the side, and has a rubber sleeve body portion 11 having a flange formed with a flange and a plurality of steel wires 13 inside. ) Is inserted into the rubber sleeve 10 and elongated through the inner side and formed a constant distance in the longitudinal direction of the outer surface of the steel pipe pipe body 21 and the steel pipe pipe body 21 with a flange formed on the side and the inside is closed It is formed using a steel pipe pipe 20 and a flexible urethane material formed of a plurality of lugs 22 formed in the shape of "ㅁ" shape and composed of a flexible urethane hose 30 having a flange on the side.

That is, the floating part 5 alternately arranges the rubber sleeve 10, the steel pipe pipe 20, and the soft urethane hose 30, and the rubber sleeve 10, the steel pipe pipe 20, and the soft urethane hose 30. Secure each of them firmly by using flanges formed on both sides of).

The diameter of the rubber sleeve 10, the steel pipe pipe 20 and the flexible urethane hose 30 in the floating body portion 5 has a length in the range of 40 ~ 60cm, the length of the rubber sleeve 10 in the range of 100 ~ 150cm The length of the steel pipe pipe 20 is in the range of 900 ~ 1200cm, the length of the flexible urethane hose 30 is in the range of 1100 ~ 1500cm.

A plurality of lugs 22 having a ㅁ shape in the longitudinal direction of the outer side surface of the steel pipe 20 are formed while maintaining a constant interval. The lug 22 is formed integrally with the steel pipe pipe body 21 constituting the steel pipe pipe 20 to be configured firmly. The upper end of the membrane body portion 40 of the woven form is fixedly coupled to the lug 22 formed in the "k" shape. Lugs 22 composed of a plurality of lower ends of the steel pipe 20 and the uppermost end of the membrane body 40 are firmly coupled so that the rubber sleeve 10, the steel pipe 20, and the flexible urethane hose 30 are alternately formed. The floating body part 5 and the membrane body part 40 which were arrange | positioned and couple | bonded are the structure which is combined firmly.

The lower end 50 formed in the horizontal direction along the lower end of the membrane body 40 is composed of a chain of metal material to prevent the flow of the membrane body 40 to the blue and to act as a weight, the cylindrical shape The flanges formed on the side of the formed steel pipe pipe 20 and the flanges formed on the side of the rubber sleeve 10 or the flanges formed on the side of the flexible urethane hose 30 are firmly fixed to each other, and the steel pipe pipe 20 ) And the rubber sleeve 10 having the steel wire 13 formed therein are alternately arranged to form the floating body portion 5.

The floating body portion 5 is formed in the form of an intersection between the steel pipe pipe 20 fixed to the land and another steel pipe pipe 20 installed on the sea, starting from the land surrounding the sea and connected to the land again. The flexible urethane hose 30 is further disposed to increase the flexibility of the sleeve 10 so that the steel pipe pipe 20 fixed to the land can minimize the impact of shaking due to the digging. It was configured to withstand the blue with enough.

That is, the flexible urethane hose 30, which is more flexible than the rubber sleeve 10, is disposed in place of the rubber sleeve 10 that is arranged to cross the land. Then, starting from the land of the floating body portion 5 may be composed of a steel pipe pipe 20, and a soft urethane hose 30, and a steel pipe pipe (20). The flexible urethane hose 30 is disposed in place of the rubber sleeve 10 disposed on land or in close proximity to the land, and is not disposed on the sea far from the land, but may be used when flexibility is required than the rubber sleeve 10. .

When the present invention uses an antifouling film using a steel pipe and a rubber sleeve, the steel pipe pipe and a rubber sleeve or a soft urethane hose are cross-coupled, and the steel pipe pipe is configured to weld each side with a name plate to maintain buoyancy separately. Since each steel pipe maintains a separate buoyancy, it is possible to maintain the buoyancy of the entire steel pipe even if a few steel pipes are damaged, such as one or two, and the floating part of the anti-fouling film is made of steel pipe and rubber sleeve or soft urethane. Since the hose is constructed by combining crosses, there is an effect that it can withstand long-lasting blue at sea than when a float is formed of one material. In addition, the flexible urethane hose can be used alternately with the steel pipe installed on the shore of the beach to increase the flexibility, so that the floating part composed of the steel pipe and the soft urethane hose can minimize the impact of shaking due to digging. By inserting steel wires inside, the durability is remarkably increased, so that the floating part can withstand continuous waves for a long time, and it can be reprocessed after the expiration of the period of use. You can save money.

1 is a perspective view of an antifouling film using a steel pipe and a rubber sleeve of the present invention.
Figure 2 is a cross-sectional view of the stain protection film using a steel pipe and the rubber sleeve of the present invention.
Figure 3 is an individual perspective view of the antifouling film using the present invention steel pipe and rubber sleeve.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, detailed descriptions of well-known functions or configurations are considered to unnecessarily obscure the subject matter of the present invention. The detailed description is omitted.

Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intention or custom of a user or an operator. Therefore, the definition should be made based on the contents throughout the specification.

1 is a perspective view of an antifouling film using a steel pipe and a rubber sleeve, FIG. 2 is a cross-sectional view of an antifouling film using a steel pipe and a rubber sleeve, and FIG. 3 is an individual perspective view of an antifouling film using a steel pipe and a rubber sleeve.

In detail with reference to Figure 1,

The main body 1 of the anti-fouling film has a floating body portion 5, which is a portion floating on the surface of water at the top, and a membrane body portion 40 having a membrane shape at the lower end of the floating body portion 5 in water, and the membrane body portion 40 The bottom portion 50 is formed in a horizontal direction at the bottom of the chain and serves as a weight to prevent the flow of the membrane body 40 even in a strong blue.

The floating part 5 is formed in an elongated strip shape on the water surface by arranging the rubber sleeve 10, the steel pipe pipe 20 and the flexible urethane hose 30 alternately or continuously. In the existing prior art, when the styrofoam forming the floating body portion 5 consisting of the rubber sleeve 10, the steel pipe pipe 20 and the soft urethane hose 30 of the present invention is installed in the sea or the waves are severe The damage developed rapidly, resulting in an additional cost burden due to the replacement of the antifouling film. In order to prevent the damage to the floating body portion 5 or the existing styrofoam damage proceeded quickly, in order to slow the floating body portion 5 in the present invention, the rubber sleeve 10 and the steel pipe pipe 20 and the soft urethane hose 30 To prevent damage to the floating body portion 5 configured using

The steel pipe pipe 20 is configured in a cylindrical shape, the steel pipe pipe 20 is formed in a closed type to have a buoyancy, the inside of the steel pipe pipe 20 is configured in an empty state. Steel pipe pipe 20 is formed by forming a flange on both sides of the steel pipe pipe 20 so that it can be configured in the form of a strip in the form of a steel pipe 20 and another steel pipe pipe 20 using a flange firmly Can be combined.

In addition, if the floating body portion 5 is continuously formed only by the steel pipe pipe 20, it is difficult to sustain a high wave or wave for a long time. Because the steel pipe pipe 20 is not flexible, when the steel pipe pipes 20 are coupled to each other, because of the rigid properties as opposed to the flow of flexible waves, the flanges on both sides of the steel pipe pipes 20 are eventually broken and separated or separated. Because.

Therefore, the rubber sleeve 10 or the flexible urethane hose 30 having high flexibility is disposed between the steel pipes 20 to increase the overall flexibility of the floating body portion 5 so as to properly cope with high waves or waves.

In particular, the anti-fouling film body 1 having a constitution starting from the land and connected to the sea or the water is more flexible than the rubber sleeve 10 between the steel pipe 20 fixed on the land and the steel pipe 20 installed on the sea or the water. By arranging the high soft urethane hose 30, the steel pipe pipe 20 fixed on the land is manufactured to minimize the impact of the wave of the wave to withstand the severe blue.

The length of the rubber sleeve 10 is in the range of 1 to 1.5m, the diameter is in the range of 0.4 to 0.6m, the length of the steel pipe 20 is in the range of 9 to 12m, the diameter is in the range of 0.4 to 0.6m, and the soft urethane hose ( 30) has a length in the range of 11 to 15 m and a range of 0.4 to 0.6 m.

The steel pipe pipe 20 and the rubber sleeve 10 are alternately combined to complete the floating body portion 5. Particularly, if the flexible urethane hose 30 is disposed between the steel pipe pipe 20 and another steel pipe pipe 20 instead of the rubber sleeve 10 disposed on the land due to the characteristics of the floating body part 5 starting from the land, Since the soft urethane hose 30 is more flexible than the rubber sleeve 10, the impact applied to the floating body portion 5 is reduced even at a high digging force.

As described above, the membrane body portion 40 of the woven form is extended to the lower end of the floating body portion 5 and the lower portion 50 of the chain shape serving as a weight acts on the lower end of the membrane body portion 40 to install the membrane portion ( When the flow of 40 is prevented, the main body 1 of the antifouling film is completed.

Floating part 5 constituted by alternately arranging the steel pipe 20 and the rubber sleeve 10 should be replaced when damage occurs in the long-term use, and the existing floating part 5 should be discarded. However, in the conventional prior art, the styrofoam forming the floating body portion 5 has a large volume, which makes it difficult to reprocess for disposal. However, since the floating part 5 of the present invention uses a hollow steel pipe 20 and a highly flexible rubber sleeve 20, the cost of replacing the existing antifouling film is small due to its small volume and easy reprocessing for disposal. Will be lowered.

In addition, since reprocessing is easy, there is an advantage of preventing environmental pollution due to increase of waste or incineration of waste.

The membrane portion 40 is formed in a woven form, and the uppermost portion is coupled to the lower end of the floating portion 5. And the lower end of the membrane body 40 is coupled to the lower end 50 using a heavy material that acts as a chain-shaped weight formed in a long horizontal direction. In addition, the membrane body 40 forms a reinforcing belt 45 in the vertical direction by spaced apart by a predetermined interval to prevent damage or loss of the membrane body 40 and serves to reinforce rigidity.

The reinforcing belt 45 may be formed of a belt in the form of a belt. In addition, the reinforcing belt 45 may prevent the membrane body 40 from being torn by the lower end 50 serving as the weight formed at the bottom thereof.

Accordingly, the main body 1 of the present antifouling film 5 is a floating body portion 5 formed by alternately forming the steel pipe pipe 20, the rubber sleeve 10 and the flexible urethane hose 30 installed on the upper end of the membrane body portion 40. ) And the lower end 50 formed at the lower end of the membrane body 40, the stiffness of the upper and lower ends of the antifouling membrane body 1 is increased, and the upper and lower ends of the antifouling membrane body 1 are hydraulically pressured. There is an effect that can be prevented by tearing.

The lower end 50 may be formed in the form of a metal body that acts as a weight to prevent the flow of the membrane body 40 in the water. The lower end portion 50 serves to prevent the membrane portion 40 from being torn by swinging in the flow direction of the seawater and returning it to its original state by weight when there is a sudden fluctuation of the seawater or a typhoon. .

Referring to Figure 2 in detail,

(a) shows the coupling relationship between the steel pipe pipe body 21 and the lug 22 constituting the steel pipe pipe 20, (b) shows the steel pipe pipe 20, the membrane body portion 40 and the lower end portion 50 of the It shows a coupling relationship.

The steel pipe pipe 20 is an elongated tube shape and a plurality of spaced apart at equal intervals in the longitudinal direction of the steel pipe pipe body 21 and the steel pipe pipe body 21 and the outer side in the longitudinal direction formed with flanges on both sides. The lug 22 which formed dog is comprised.

The lug 22 formed at the lower end of the steel pipe 20 and the upper end of the membrane body 40 are firmly coupled, and the lower end 50 is coupled to the lower end of the membrane body 40 to form the main body 1. do.

The membrane body 40 is fixed to the lug 22 having a shape of “ㅁ” formed at equal intervals at the lower end of the steel pipe 20, and the lug 22 is a steel pipe at the lower end of the steel pipe 20. Since it is formed integrally with the pipe 20, the steel pipe pipe 20 and the membrane body 40 can be firmly and firmly coupled.

Referring to Figure 3 in detail,

The rubber sleeve 10 shown in (a) has a cylindrical shape and forms a rubber sleeve side portion 11 having a closed side, a rubber sleeve side portion 11 forms a flange, and the rubber sleeve body 12 has a central portion. To form. The inner side of the rubber sleeve 10 is empty and has a buoyancy force so that each of the rubber sleeves 10 can be floated on the water surface individually.

The rubber sleeve 10 shown in (b) forms a plurality of steel wires 13 on the inside, so that the rubber sleeve of a flexible material can withstand high digging or blue.

By arranging a plurality of steel wires inside the rubber sleeve body 12, which is a central portion of the rubber sleeve 10, the rubber sleeve 10 has a flexibility unique to the rubber sleeve 10 and is configured to have strong rigidity.

In the present invention, the above embodiment is an example, and the present invention is not limited thereto. Anything that has substantially the same configuration and achieves the same effect as the technical idea described in the claims of the present invention is included in the technical scope of the present invention.

1. Main body
5. Floating part
10. Rubber sleeve
11. Rubber sleeve side
12. Rubber sleeve body
13. liner
20. Steel pipe pipe
21. Steel pipe pipe body
22.Rug
30. Flexible Urethane Hose
40. Membrane
45. Reinforcement belt
50. Bottom part

Claims (5)

In the antifouling film installed in order to prevent the diffusion of contaminants in water,
The antifouling film is formed of a floating body portion 5 formed at the top of an elongated cylindrical shape floating on the surface of the water and a membrane body portion 40 formed in the form of a film hanging in the water. And
Both sides of the floating body portion 5 is the rubber sleeve 10 and the flexible urethane hose 30 is alternately arranged in the closed steel pipe pipe 20, the longitudinal direction of the outer surface of the steel pipe pipe 20 The upper end of the membrane body portion 40 of the weave form is fixed to the lug 22 of the "ㅁ" shape,
The rubber sleeve is formed in a cylindrical shape, the rubber sleeve side portion 11 of the closed side, the rubber sleeve side portion 11 to form a flange, the rubber sleeve body 12 is formed in the center, the rubber sleeve ( The inside of 10) is arranged in a plurality of steel wires 13 in an empty state, the rubber sleeve 10 of a flexible material is configured to withstand high digging or blue with a unique rigidity and strong rigidity ,
The membrane body 40 is formed in a woven form, the upper end is coupled to the lug 22 of the floating body portion 5, the lower end of the lower end portion that acts as a chain weight formed in the horizontal direction long ( 50 is coupled, and the steel pipe pipe and rubber sleeve, characterized in that the reinforcement belt 45 is formed at regular intervals in the vertical direction spaced by a predetermined interval to prevent damage and loss of the membrane body 40 Antifouling film using. delete delete delete The method according to claim 1,
The rubber sleeve 10, the steel pipe pipe 20, and the flexible urethane hose 30 constituting the floating part 5 have a length in the range of 40 to 60 cm, and the length of the rubber sleeve 10 is 100 to 150. Cm range, the length of the steel pipe pipe 20 is in the range of 900 ~ 1200cm, the length of the flexible urethane hose 30 is 1100 ~ 1500cm characterized in that the pollution prevention film using a steel pipe and rubber sleeve.

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