KR20120044525A - Recyclable and eco-friendly pad for absorbing oil on inland or outland water - Google Patents

Abstract

PURPOSE: A pad for absorbing oil on inland and outland water is provided to prevent oil components induced into the inner side of the pad from being leaked to the outer side of the pad and to efficiently eliminate the oil components. CONSTITUTION: A pad for absorbing oil is used for eliminating oil components on the inner surface and the outer surface of water. A plurality of nets is stacked, and outer circumference parts of the stacked nets are sewn or attached to form a pad(10) for absorbing oil. Non-moisture absorbing type synthetic resin-based yarn is woven to form network of pre-determined sizes to form the nets. The sizes of the network on nets are increased from the outer side to the inner side of the pad.

Description

Recyclable and eco-friendly pad for absorbing oil on inland or outland water}

According to the present invention, the mesh using a synthetic resin net yarn is not absorbed in a plurality of sheets, and then sewn or bonded to the edge portion of each net integrally to form an oil-absorbent fabric, but located outside the oil-absorbent fabric This invention relates to an eco-friendly inner / outer surface absorbent fabric that allows for the rapid and effective removal of oil components, easy recovery of oil components, and reuse of adsorption fabrics by increasing the size of the mesh toward the mesh located inside the absorbent fabric. .

In recent years, large and small oil spills frequently occur from many ships operating in coastal waters. Such leaked oil not only pollutes coastal waters, but also flows along shoreline or seashore rocks, causing severe environmental pollution. Water pollution is getting worse day by day due to various oil components leaked from surrounding urban areas, factories, water pipes, oil tanks, and the like.

As described above, the method of removing the oil leaked to the inner surface of the outer water or the lake including coastal waters includes spraying an emulsifier to neutralize the oil, and collecting and treating the oil by adsorbing the oil with a sorbent cloth. The method and the method of providing an oil-proof film so that oil may not spread on the water surface are used.

Among the methods described above, the method of spraying emulsifier can neutralize and remove the oil, but there is a risk of causing secondary water pollution by the chemical composition of the emulsifier. Floating oil component can block the diffusion to some extent, but there is a disadvantage that can not substantially remove the oil floating on the water surface.

Therefore, the most widely applied method for removing oil leaked into the inner and outer water surface is to use a sorbent cloth. As a representative example of such sorbent cloth, a porous fabric or a nonwoven fabric is woven into a bag shape, and then a human An absorbent fabric made by filling hair or bird feathers, or an absorbent fabric made by weaving a porous material such as a crest in a specific shape.

However, the conventional oil-absorbent fabrics as described above do not utilize the pores provided on the outside and the inside of the adsorption fabrics more effectively in order to absorb oil, so that the oil component is mainly attached to the surface of the adsorption fabrics. There was a problem that can not penetrate deep into the inside of the, due to the deterioration of the oil adsorption performance there was a problem that takes a large amount of adsorption cloth and a lot of work time when removing the oil of the inner and outer surface.

Particularly, products made by weaving algae or creases made of bird feathers have a rather large volume, making it difficult for workers to use easily, and the material itself absorbs large amounts of water together with oil, The removal efficiency of the oil through the oil adsorption cloth is further reduced in proportion to the amount of water absorbed, as well as the weight of the oil adsorption cloth becomes heavy after the oil removal work, and thus the handling and transport of the oil adsorption cloth was also very difficult.

Due to the above factors, it is difficult to practically utilize the conventional oil absorbent cloth for oil removal work of the inner and outer water, and the oil absorbent cloth used once for oil removal work cannot be reused. In addition, it is also almost impossible to recover the oil component from the oil absorbent fabric, causing unnecessary waste of resources and secondary environmental pollution due to the disposal or incineration of the oil absorbent fabric.

In order to supplement the above problems, by using a propeller yarn having a capillary structure with a paper thread, weaving it into a woven fabric having a pore, and using it as an adsorption cloth, so as to quickly adsorb and remove the leaked oil, It is known from the Republic of Korea Patent Publication (Registration No .: 10-0862043, Announcement Date: October 09, 2008) that it is possible to take out the adsorption cloth with oil attached.

However, even in the above-described conventional adsorption cloth, water and oil are adsorbed at the same time in the paper chamber at the same time the removal efficiency of the oil is relatively reduced, the problem that the reuse of the absorbent cloth is almost impossible after the oil removal operation, The problem is that the recovery of oil components adsorbed by the propeller yarn is difficult. Especially, since the propeller yarn having a capillary structure is inclined and the absorbent cloth is made of fabric paper with a weft of paper yarn, the price of the absorbent cloth is rather high. There was a problem.

The present invention has been made in order to solve the conventional problems as described above, and the mesh using a mesh of synthetic resin material that is not absorbed moisture is stacked in a number of sheets, and then sewn or bonded to the edge portion of each mesh integrally To form a sorbent cloth, so that the size of the mesh becomes larger from the net located on the outside of the sorbent cloth to the net located on the inside of the sorbent cloth, so that the oil component is absorbed very effectively through the mesh of the mesh forming the sorbent cloth. At the same time, the adsorbed oil component is guided to the inside of the oil absorbent fabric to be trapped in a complicated entangled mesh thread, thereby allowing the removal of various oil components to be performed more quickly and easily. Weight and volume of the material and reduce the cost While the bamboo blind, and by ever possible easy recovery and reuse of the organic heupchakpo of adsorbed oil component, to provide a more economical and environmentally friendly organic heupchakpo product as a technical problem.

As a means for solving the above technical problem, the oil-absorbing cloth according to the present invention is formed by stacking a plurality of nets in a stacked manner to sew or glue the outer periphery of each net integrally, each of the nets, the moisture is absorbed It is woven to have a mesh of a predetermined size by using a mesh thread of synthetic resin material, wherein the oil-absorbing cloth is one or more inner meshes located at the inner center thereof, and the upper and lower portions of the inner meshes It consists of one or more external networks or by inserting one or more intermediate networks between the external and internal networks, and from the external network through the intermediate network to the internal network. It is characterized in that the size of the mesh is large, and the large canvas type adsorption cloth of the manner that the oil-absorbing fabrics rely on the ship Sikidoe sex, the lower end of the oil has been heupchakpo chimja installation connected with a predetermined gap, with a predetermined gap side of the upper portion of the oil heupchakpo characterized in that the accessories is connected to the installation.

According to the present invention as described above, while the oil component of the viscous fluid is easily adsorbed through the network provided by each of the nets forming the oil-absorbing cloth, the oil component adsorbed to the outer surface of the oil-absorbing cloth is provided to each mesh Since it is quickly guided to the inside of the oil absorbent fabric, it provides an effect that can be performed more easily and efficiently using the oil absorbent fabric.

In particular, the mesh size of the mesh is increased from the outer network positioned outside the oil absorbent cloth to the inner network positioned inside the oil absorbent cloth, so that oil components are absorbed and induced more quickly from the outer network to the inner network. On the other hand, by the complicated mesh structure formed by the outer mesh and each mesh having a narrower mesh than the inner mesh, there is an effect that the oil component guided to the inside of the oil-absorbing cloth does not easily flow out.

In addition, since each mesh constituting the oil-absorbing cloth of the present invention uses a synthetic resin mesh thread that does not absorb moisture, only an oil component, which is a viscous fluid, is mainly adsorbed through the mesh of the mesh and the Absorption does not occur, so that the oil adsorption and removal performance is greatly improved as compared to the conventional oil-absorbent cloth, while the weight of the oil-absorbent cloth is not so heavy even after the oil removal operation, the oil removal operation It is easy to handle and transport the oil-absorbing cloth used in.

In addition, by applying a simple structure and manufacturing method for stacking a plurality of nets in a lamination type to sew the outer periphery of each net, the volume and weight can be minimized as compared to the conventional absorbent cloth using the feathers and crests of birds. In addition, there is a significant reduction in the manufacturing cost compared to the woven fabric woven with propelin yarn and paper thread.

In particular, since deoiling and washing to separate oil components from oil absorbent fabrics used for oil removal work can be performed very easily, it is possible to simultaneously recycle oil components and reuse oil absorbent fabrics. There is an effect to prevent secondary environmental pollution due to the disposal of the oil-absorbing cloth, thereby having a very useful effect, such as to provide a more economical and eco-friendly adsorption cloth products.

1 is a perspective view of the oil-absorbing fabric according to the present invention.
Figure 2 (a) and (b) is an exploded perspective view of the oil-absorbing cloth according to the present invention.
Figure 3 (a) to (d) is an exemplary view showing a sewing state of the oil-absorbent fabric according to the present invention.
4 is a schematic cross-sectional view of an oil absorbent fabric according to the present invention.
5 is a front view showing a large canvas oil-absorbing cloth according to the invention.
FIG. 6 is an explanatory diagram showing a process of performing oil removal by reclining the oil adsorption cloth of FIG.
7 and 8 are diagrams showing the embodiment of the oil-absorbing cloth according to the present invention by type.

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

Eco-friendly internal and external water-absorbing cloth 10 can be recycled according to the present invention, as shown in Figures 1 and 2 and 4, respectively, by stacking a plurality of nets in a stack to sew or integrally the outer periphery of each net By adhering, the mesh provided to each net allows the oil adsorbing function to be carried out while the oil adsorbed by the intertwined mesh structure provided by each net is trapped inside. The adsorption cloth 10 was formed.

Each mesh constituting the oil-absorbing cloth 10 is to be woven to have a mesh (square or rhombus or circle) of a predetermined size by using a mesh of synthetic resin material is not absorbed moisture, it can be applied to the present invention Representative examples of the net is an onion net used as a bag for onions.

In addition, a synthetic thread such as polyethylene (PE), polypropylene (PP), nylon, or the like is spun into fibers to form a mesh thread, and the mesh thread is then meshed to a predetermined size using a device such as a knitting machine. If it is woven in the shape of a net to have any kind of net products, it is clear that it can be used.

The oil-absorbing cloth 10 according to the present invention allows the oil component leaked to the inside and outside water to be removed by adsorption, as well as the oil component adsorbed by the oil-absorbing cloth 10 easily separated from the oil-absorbing cloth 10 (deoiling). And it is possible to recover and at the same time to be able to reuse the sorbent fabric 10, each mesh forming the mesh is to be made of one strand of fiber, or twisting two or three strands of fiber to manufacture desirable.

In other words, if the net yarn forming each net is manufactured by twisting a plurality of thin fibers, it is possible to improve the adsorption power of the oil component to some extent, but the oil is adsorbed into the fine gaps between the fibers. Dehydration and recovery of the adsorption cloth 10 becomes difficult, and of course, the manufacturing cost of the oil absorption cloth 10 also increases, so that the net yarn forming each net is limited from one strand to up to three strands of fiber. Means that it is preferable.

The most important technical aspect of the oil-absorbent cloth 10 of the present invention, while stacking a plurality of nets in a stacked manner to produce the oil-absorbent cloth 10, the oil-absorbing cloth (10) from the net located on the outside of the oil-absorbing cloth (10) The net size of the net is increased as the net is located inside of the net, and the lamination structure of the net enables the optimization of the pores, that is, the net placement of the oil components.

According to the arrangement of the mesh as described above, when performing the removal of oil using the oil-absorbent fabric 10 of the present invention, located on the inside of the oil-absorbent fabric 10 from the mesh located on the outside of the oil-absorbed fabric (10). The oil component can be adsorbed and guided more quickly to the mesh, while the oil component guided to the inside of the oil-absorbing cloth 10 by a staggered arrangement between the outer mesh and the mesh thread having a narrower mesh than the inner mesh. It doesn't flow easily to the outside.

As a first preferred embodiment of the present invention, as shown in (a) of FIG. 2, one or more inner meshes 2 located in the inner center of the absorbent cloth, and upper and lower portions of the inner meshes 2, respectively. One or more of the outer mesh (1) is positioned to configure the absorbent cloth 10, while the mesh of the inner mesh (2) is to be formed in a larger dimension than the mesh of the outer mesh (1).

The outer network 1 and the inner network 2 is most preferably applied to about 1 or 2 sheets each, but the number of applications of the outer network 1 and the inner network (2) may be three or more, respectively. In the case where two or more outer meshes 1 are applied to the upper side and the lower side of the inner mesh 2, the mesh of the outer mesh 1 located on the outer side of the outer mesh 1 is located on the inner side. It is desirable to make it smaller than the mesh.

In addition, in the case where two inner meshes 2 are used, it is preferable that each inner mesh 2 has the same mesh size, and only when the inner mesh 2 has three or more sheets. It is preferable to make the mesh of the inner mesh 2 located in the smaller than the mesh of the inner mesh 2 located inward.

In other words, each mesh is divided into an outer network 1 and an inner network 2 so that the structure of the oil-absorbing cloth 10 according to the present invention can be more easily understood. As described above, the principle is in line with the fact that the mesh size of the mesh increases from the outside of the oil absorbent fabric 10 to the inside of the oil absorbent fabric 10.

The mesh size of the mesh applicable to the first embodiment of the present invention (the length of one side in the case of a square or rhombus mesh, the diameter in the case of a circular mesh) is 1 mm to 3 mm in the case of the outer mesh 1 It is preferable to be in a range, and to be in the range of 0.5 cm-2 cm in the case of the internal net | network 2.

The reason for the mesh size of the outer mesh 1 to be within the range of 1 mm to 3 mm as described above, considering that most of the oil leaking into the inner and outer water surface is heavy oil such as bunker seed oil, the oil through the outer mesh 1 To provide a quick and easy adsorption of at least 1mm or more while providing the mesh, while limiting the maximum mesh size to 3mm so that the adsorbed oil does not flow back through the outer network (1).

In addition, the reason for the mesh size of the inner mesh (2) within the range of 0.5cm ~ 2cm, the outer mesh so that the oil component adsorbed through the outer mesh (1) can be induced quickly into the inside of the oil-absorbing cloth (10) Oil component guided into the inner mesh (2) by having a larger dimension than the mesh of (1), while providing a complex mesh structure with the mesh of the outer mesh (1) inside the outer mesh (1) The adhesive force is to prevent trapped in the mesh and mesh structure of the inner network (2).

In FIG. 7, the mesh arrangement structure of the oil adsorption cloth 10 applicable to the first embodiment of the present invention is shown in the form of a diagram, but the oil adsorption cloth 10 according to the present invention is the type described in FIG. 7. It is not meant to be limited to.

As illustrated in FIG. 7, in the case of manufacturing the oil-absorbing cloth 10 having two or more outer meshes 1 and 2 inner meshes, within the mesh size range of the outer mesh 1 and inner mesh 2. It is preferable to have a mesh that is located in the inner side is larger than the mesh that is located in the outer side, the above-mentioned dimensional range is also just a representative embodiment that can be applied to the present invention, according to the components of the oil to be adsorbed It should be noted that the mesh dimensions of the outer and inner meshes 1 and 2 are adjustable.

As shown in (b) of FIG. 2, the oil-absorbing cloth 10 according to the second embodiment of the present invention has an outer network 1 based on the oil-absorbing cloth 10 according to the first embodiment of the present invention. One or a plurality of intermediate networks 3 are inserted between the internal network 2 and the internal network 2, wherein the network of the intermediate network 3 is larger than that of the external network 1 and the network of the internal network 2 It is to be formed in a smaller dimension than.

In the case of the oil-absorbing cloth 10 according to the second embodiment of the present invention, the mesh size of the outer mesh 1 is 1 mm to 3 mm as in the first embodiment, and the mesh size of the intermediate mesh 3 is It is desirable to be 0.5cm to 1cm, and the mesh size of the inner mesh 2 is 1.5cm to 3cm, which also has the same context as described in the first embodiment of the present invention.

However, the oil-absorbing cloth 10 according to the second embodiment of the present invention, since the number of the net is at least five sheets according to the application of the intermediate network (3), according to the first embodiment of the present invention (minimum 3 By increasing the mesh size of the inner network (2) relatively larger than the length), the oil component is to be more easily guided to the inner network (2) side through the outer network (1) and the intermediate network (3).

In the accompanying drawings, the mesh arrangement structure of the oil-absorbing fabric 10 applicable to the second embodiment of the present invention is shown in the form of a diagram, but the type of the oil-absorbing fabric 10 according to the present invention is shown in FIG. It is not meant to be limited to.

Figure 3 (a) to (d) is a list of the appearance of the oil-absorbent cloth 10 that can be applied to the present invention, the oil-absorbent cloth 10 of the present invention is a small adsorption cloth having the size of a towel, and the degree It can be manufactured in various dimensions such as a medium absorbent cloth having a size of and a large absorbent cloth having a size of more.

In the case of the small absorbent cloth, as shown in (a) and (b) of FIG. 3, the absorbent cloth 10 may be manufactured by the outer sewing line 4 sewn integrally with only the outer periphery of each mesh. Alternatively, in the case of a large absorbent cloth, as shown in (c) and (d) of FIG. 3, an auxiliary sewing line 5 is further formed inside the outer sewing line 4 along the horizontal and vertical directions, so that the absorbent cloth 10 It is desirable to ensure the required structural strength.

On the other hand, in the oil-absorbing cloth 10 of the present invention, the method of connecting each net integrally, the sewing method is most suitable, but if necessary, each of the net outer peripheral portion may be bonded by heat-sealing method, In this case, in terms of reducing the manufacturing cost of the oil-absorbing cloth 10 is advantageous, since the edge portion of the heat-sealed oil-absorbing cloth 10 is sharp and hard, there is a small absorbent cloth used by the user in his hand It is preferable not to apply.

When the oil removal operation of the inner and outer water surface is performed using the oil adsorption cloth 10 of the present invention as described above, the oil component, which is a viscous fluid, is easily adsorbed through the mesh provided by the respective nets, and the oil adsorption cloth Oil component adsorbed to the outer surface of (10) is guided quickly into the inside of the oil-absorbing fabric 10 through the mesh provided in each mesh, it is possible to perform the oil removal operation using the oil-absorbing fabric 10 more easily and efficiently Will be.

In particular, by increasing the mesh size of the mesh toward the mesh located on the outside of the oil-absorbing cloth 10, that is, the mesh located on the inside of the oil-absorbing cloth 10, that is, the inner mesh (2) increases, The oil component can be adsorbed and guided more quickly from the outer network 1 to the inner network 2, while the outer network 1 and the respective meshes have a narrower mesh than the inner network 2 Due to the complex mesh structure, the oil component guided to the inside of the oil-absorbing fabric 10 is not easily flowed out.

In addition, since each mesh constituting the oil-absorbing cloth 10 of the present invention uses a synthetic resin mesh thread that does not absorb moisture, only an oil component, which is a viscous fluid, is mainly adsorbed through the mesh of the mesh, Absorption of moisture through does not occur.

Therefore, the oil adsorption and removal performance of the oil can be greatly improved as compared with various conventional oil absorption cloths, and even after the oil removal operation, the weight of the oil absorption cloth 10 becomes heavy due to the load of moisture. By not doing so, it becomes easy to handle and transport the oil absorption cloth 10 used in the oil removal operation.

In addition, the oil-absorbing cloth 10 according to the present invention by stacking a plurality of nets in a lamination type by applying a simple structure and manufacturing method for sewing the outer periphery of each net, the conventional oil-absorbing cloth using a bird feathers and crests, etc. The volume and weight can be minimized as compared with the manufacturing method, and the manufacturing cost can be greatly reduced as compared with the sorbent fabrics in which the propeller yarn and the paper thread are woven.

On the other hand, when the high pressure water is sprayed through the oil adsorption cloth 10 of the present invention used for removing oil or the oil adsorption cloth 10 of the present invention used for removing oil is put into a centrifuge and washed. , The oil component attached to each net can be easily and easily deoiled, and, if necessary, separate the nets constituting the oil-absorbing cloth 10 of the present invention separately to perform the above deoiling operation.

The oil deoiled in the above manner is finally separated from water or foreign matter using an oil water separator or an oil recoverer, so that the oil component can be easily recovered and recycled, and the oil-absorbing cloth of the present invention washed during the deoiling process (10 ) Can be reused in the oil removal operation of the inner and outer water, thereby preventing secondary environmental pollution due to waste of unnecessary resources and disposal of the oil-absorbing cloth (10).

5 and 6 show a third embodiment of the present invention, which is intended to be a large canvas type adsorption cloth of the type that the oil adsorption fabric 10 envisages with a vessel 9, and the oil adsorption fabric 10 The lower end of the) is provided with a needle (6) is connected at a predetermined interval, while the upper side of the oil-absorbing cloth (10) is provided with a rich (7) is connected at a predetermined interval.

The reason for installing the acupuncture 6 and the rich man 7 in the large canvas type adsorption cloth 10 as described above is to remove the oil existing in the floating state on the inner and outer surface more effectively. The lower end of the adsorption cloth 10 is to be submerged in water by a certain depth, and the upper end of the oil absorption cloth 10 to protrude from the water surface by a certain height, it is possible to remove the way of trapping the oil components into the oil absorption cloth (10). It is so long.

The large canvas type oil absorbent fabric 10 is connected to the vessel 9 using the towing rope 8 in the same manner as in FIG. 6, and then the large canvas type oil absorbent fabric 10 is connected to the area of oil floating on the water surface. When it is expected, the oil removal operation of a wide area leaked on the inner and outer water surface can also be easily performed, which is indicated by reference numeral 8a in FIG. 6 to open a large canvas type absorbent cloth 10 to a certain width. For development.

Although a large variety of shapes and dimensions can be applied to the large canvas-type absorbent fabric 10 according to the third embodiment of the present invention, on the basis of FIG. It is preferable to have a height of about 1.5m to 3m and a length of about 50m to 200m.

On the other hand, it is preferable to apply a high pressure washing method to the washing and deoiling of the large canvas oil-absorbent cloth 10, as a practical example, the large canvas oil-absorbent cloth 10 is wound on a roller, and then wound on a roller. The oil adsorption cloth (10) is released in one direction and transported, and at the same time, the high pressure water is injected from the upper side of the oil adsorption cloth (10) to perform deoiling and washing of the oil adsorption cloth (10). The method of winding up 10 to the other roller side is mentioned.

Finally, in the detailed description of the present invention, in the mesh forming the oil-absorbing fabric 10, but not specifically mentioned about the diameter of the mesh thread, in consideration of the size and use of the oil-absorbing fabric 10 and the number of applications of the mesh, etc. It is preferable to appropriately adjust the diameter of the mesh. For example, the diameter of the mesh thread is preferably about 0.5 mm to 1 mm in the case of the small absorbent cloth or the medium absorbent cloth, and the diameter of the mesh thread is 1 mm in the case of the large canvas absorbent cloth. 2mm is suitable.

However, the thinner the diameter of the net yarn forming the net, the larger the number of nets per the same area can be secured to improve the adsorption performance of oil, but the strength of the net is weak, there is a disadvantage that the damage of the net easily occurs, The thicker the diameter of the mesh is, the better the strength of the mesh is. However, the number of meshes per area decreases, so that the oil adsorption performance is reduced. It is preferable.

1: external network 2: internal network 3: intermediate network
4: outer sewing line 5: auxiliary sewing line 6: needle
7 rich man 8 tug rope 8a development
9 vessel 10: absorbent cloth

Claims (5)

In the oil-absorbing cloth (10) used for removing oil inside and outside the water,
The oil-absorbing cloth 10 is formed by stacking a plurality of nets in a stacked manner to sew or glue the outer periphery of each net integrally,
Each mesh forming the oil-absorbing cloth (10) is eco-friendly recyclable, characterized in that weave to have a mesh of a certain size using a mesh of synthetic resin material that is not absorbed moisture Internal and external sleep absorption cloths. The recycling mesh according to claim 1, wherein each of the nets forming the oil absorbent cloth 10 is formed such that the mesh size of the net increases from the outside of the oil absorbent cloth 10 to the inside of the oil absorbent cloth 10. This is an eco-friendly indoor and outdoor sleep absorbent cloth. According to claim 1, wherein the mesh forming the oil-absorbing cloth 10, the one or more inner meshes (2) located in the inner center of the oil-absorbing fabric (10), the image of the inner mesh (2), It consists of one or more external networks (1) located on the lower side,
The mesh size of the outer mesh (1) is 1mm ~ 3mm, the mesh size of the inner mesh (2) is 0.5cm ~ 2cm recyclable eco-friendly inner and outer water absorbent fabrics characterized in that. According to claim 1, wherein the mesh forming the oil-absorbing cloth 10, the one or more inner meshes (2) located in the inner center of the oil-absorbing fabric (10), the image of the inner mesh (2), It consists of one or multiple sheets of external network (1) located on the lower side, and one or multiple sheets of intermediate network (3) located between the external network (1) and the internal network (2),
The mesh size of the outer mesh 1 is 1mm ~ 3mm, the mesh size of the intermediate mesh 3 is 0.5cm ~ 1cm, the mesh size of the inner mesh 2 is 1.5cm ~ 3cm Eco-friendly internal and external water-absorbing cloth that can be recycled. The oil-absorbing fabric 10 according to any one of claims 1 to 4 is a large canvas-type adsorption fabric of the type envisaged by the vessel 9,
At the lower end of the absorbent fabric 10, a needle 6 is installed at predetermined intervals, and the upper side of the absorbent fabric 10 is connected at a predetermined interval with a rich child 7 installed. Eco-friendly internal and external water-absorbing cloth that can be recycled.

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