KR101584437B1 - Tube available for filtering member and fish nest - Google Patents

Abstract

The present invention relates to a filter medium which can be used as a filter medium for improving the quality of water in a water treatment plant or a farm, as well as to a filter medium or a fisher which can be used as a fish hatchery in a fish farm. The present invention relates to a method of manufacturing a tire, comprising the steps of: forming a first tube layer in which a plurality of wire-shaped synthetic resin bodies are spaced apart from each other to form a cylindrical space by being injection-molded in a forward spiral- And a second tube layer formed by injection molding a plurality of wire-shaped synthetic resin bodies in a state of being spirally rotated in a reverse direction with the wire-shaped synthetic resin bodies being spaced apart from each other, The present invention provides a tube applicable as a filter medium or a contact having a mesh structure formed between the constituting wire-like synthetic resin bodies.

Description

Tube available for filtering member and fish nest < RTI ID = 0.0 >

[0001] The present invention relates to a tube, and more particularly, it can be used as a filter medium (filtration material) for improving water quality in a water treatment plant or a farm, as well as an artificial fish (fish fish) in a fish farm (fish farm) To a tubing applicable as a filter medium or as an aid to an articulator.

Although environmental factors such as water temperature, salt and nutrients are important in fish farms or fish farms, water pollution caused by the excrement and foreign matter inflow of aquaculture fish is eliminated, and fish infections and deaths caused by bacterial growth are prevented Water purification facilities are indispensable. Such a water purification facility is also required in a circulation filtration mode in which water in a tank is continuously circulated and filtered, as well as in a still water style.

In addition, measures are needed to improve the water quality in order to control the turbidity of the feed water in the water treatment plant of the water supply system and to remove harmful substances such as bacteria.

One of the various methods used for purifying water in a farm or a water treatment plant is to use a water filter or a filter medium.

As a representative example of such a filter medium, FIG. 1 is an excerpt of a filter for treating a farm wastewater disclosed in the registration utility model No. 20-0415408. The filter 10 of Fig. 1 comprises a body 2 made of one of a cylindrical shape and a polygonal shape. The body 2 is passed through in an anteroposterior direction, and one or both of the inner surface and the outer surface of the body 2, And a plurality of filtration protrusions (4) are successively arranged along the outer circumferential surface of the housing (1). In addition, the cross-shaped reinforcement strip 6 is formed continuously in the longitudinal direction of the body 2 in the penetrated body 2, thereby enlarging the specific surface area for improving the filtration efficiency.

On the other hand, in the aforementioned farm (fish farm), especially in offshore fish farms, artificial fish or fisheries made of concrete structures, abandoned ships or various types of structures are put into the sea for the purpose of helping breeding of aquaculture fish . Therefore, when seaweed attaches to artificial fishes and reproduces, fishes hide inside or form spawning grounds, and fishes grow by feeding seaweeds.

However, existing artificial fishes are too heavy to carry and thrown, and concrete structures or waste ships are expensive. Furthermore, it takes a long time to attach seaweeds, and there is a limit to the growth of the fry since seaweeds attached to artificial fishes lack seaweed sources.

In recent years, a man-made artificial ear has been proposed as disclosed in Japanese Laid-Open Patent Application No. 10-2005-0005187, which is a durable fiber rope yarn and a rope yarn made of a biodegradable fiber material that naturally rotates after a certain period of time, And it was produced as an eco-friendly type.

Korean Utility Model No. 20-0415408 (Name: Filter for Sewage Treatment of a Farm) Korean Patent Laid-Open No. 10-2005-0005187 (entitled "Artificial fish catcher")

The conventional filter for purifying water for purification such as the filter of the above-mentioned Utility Model No. 20-0415408 has a water purifying function by attaching a foreign substance or the like to a smooth surface of a large number of filtration protrusions, which are long and parallel in a longitudinal direction and have a flat surface, So that the effect of purifying the water quality is deteriorated. In addition, conventional artificial fishes or fishes are disadvantageous in terms of production and cost, and there is a problem in that the attachment efficiency of algae is not excellent.

SUMMARY OF THE INVENTION The present invention has been developed in order to overcome the above problems, and its object is to provide a method for manufacturing a water-purifying filter medium that can be used both as a filter medium for water purification and as an agent for aquaculture farm, Structure or a tube that can be applied to a contactor.

According to an aspect of the present invention, there is provided a method of manufacturing a semiconductor device, the method comprising: forming a first tube layer in which a plurality of wire-shaped synthetic resin bodies are spaced apart from each other to form a cylindrical space by being injection-molded in a forward spiral- And a second tube layer injection-molded in a spiral-shaped reverse direction with a plurality of other wire-shaped synthetic resin bodies spaced apart from each other on the outer periphery of the layer, wherein the wire-shaped synthetic resin bodies constituting the first tube layer And a tube applicable to a filter medium or an artillery having a mesh structure formed between the wire-like synthetic resin bodies constituting the second tube layer.

In the above configuration, at least one further n-th tube layer (n is a natural number of 3 or more) formed in a spiral shape in the direction in which the mesh structure is held may have a multilayer structure on the outer side of the second tube layer .

The wire-shaped synthetic resin body of the first tube layer and the second tube layer may be a polygon having a circular cross section, an ellipse cross section, a polygon cross section, a polygon having rounded sides, a polygon having a rounded cross- Shape, a star shape, a 'C' shape, and a 'U' shape.

In particular, when the cross-sectional structure of the wire-shaped synthetic resin body of the first tube layer and the second tube layer is 'C' shape, the wire-shaped synthetic resin bodies of the first tube layer and the second tube layer are arranged in the left- , And if the cross-sectional structure of the wire-shaped synthetic resin body of the first tube layer and the second tube layer is a U-shaped body, the wire-shaped synthetic resin bodies of the first tube layer and the second tube layer are arranged in a vertically symmetrical direction desirable.

The wire-shaped synthetic resin body of the first tube layer and the second tube layer may have a twisted structure in a twisted shape.

The wire-shaped synthetic resin body of the first tube layer and the second tube layer may be made of a biodegradable synthetic resin, or may be a mixture of at least one of loess and vegetable starch in a biodegradable synthetic resin.

The wire-shaped synthetic resin body of the first tube layer and the second tube layer may be formed by mixing at least one of ceramic and activated carbon.

The present invention having the above-described structure can be used as a filter medium for water purification because it can adhere well to water, such as foreign matter, algae and the like, on the mesh structure part between the wire-like synthetic resin bodies constituting the plurality of tube layers There is a useful effect in using as an associate of aquaculture farm.

In addition, when the wire-like synthetic resin body constituting the tube layers is mixed with yellow loam, vegetable starch, ceramics, activated carbon, etc., the present invention has the effect of not only eliminating the red tide phenomenon but also improving the functionality as an adiabatic filter medium.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory drawing showing a filter for treating a farm wastewater disclosed in Registration Utility Model No. 20-0415408.
FIG. 2 is a view showing a peripheral portion of an embodiment of a tube according to the present invention. FIG.
3 is a perspective view of FIG.
4 is a perspective view of the tube of FIG. 2 viewed from the front side.
Fig. 5 is a view showing another embodiment of the present invention in which the tube layer has a three-layer structure, corresponding to Fig.
6 is a diagram showing a circular cross-sectional structure of the wire-like synthetic resin body constituting the tube layer in the present invention.
Fig. 7 is a diagram showing that the cross-sectional structure of the wire-like synthetic resin body constituting the tube layer in the present invention is a triangle having rounded sides.
Fig. 8 is a view showing that the cross-sectional structure of the wire-like synthetic resin body constituting the tube layer in the present invention is a square having rounded sides.
FIG. 9 is a diagram showing a cross-sectional structure of a wire-like synthetic resin body constituting a tube layer according to the present invention, which has a rounded formed side and a through hole in a longitudinal direction.
10 is a diagram showing a cross-sectional structure of a wire-like synthetic resin body constituting a tube layer according to the present invention.
11 is a view showing a state in which the cross-sectional structure of the wire-shaped synthetic resin body constituting the tube layer in the present invention is a 'C' shape, and the wire-shaped synthetic resin bodies of the respective tube layers are arranged in a bilaterally symmetrical direction with respect to each other.
12 is a view showing a state in which the wire-shaped synthetic resin body constituting the tube layer of the present invention has a U-shaped cross-section and wire-shaped synthetic resin bodies of the respective tube layers arranged in a vertically symmetrical direction with respect to each other.
13 is a view showing an embodiment in which a wire-like synthetic resin body constituting a tube layer in the present invention has a twisted twisted structure.
Fig. 14 is a view showing a state where the tube of the present invention is installed as a filter medium in a water treatment plant.
FIG. 15 is a view illustrating a state where the tube of the present invention is put into a filtration tank as a filter medium in a floating state. FIG.
Fig. 16 is a view showing a configuration when the tube of the present invention is put into an aquaculture farm as a fish.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, it should be understood that the following embodiments are provided so that those skilled in the art can understand the present invention without departing from the scope and spirit of the present invention. It is not.

2 is a perspective view of a tube 100 according to an embodiment of the present invention. FIG. 3 is a perspective view of FIG. 2, and FIG. 4 is a perspective view of the tube of FIG. 2 viewed from the front side.

As shown in FIGS. 1 to 3, the basic structure of the present embodiment includes a first tube layer 110 and a second tube layer 120 located outside the periphery of the first tube layer 110 The first tube layer 110 and the second tube layer 120 are formed by injection molding synthetic resin.

The first tube layer 110 has a structure in which a plurality of wire-shaped synthetic resin bodies 111 are spaced apart from each other and rotated in a forward spiral manner. Thus, inside the first tube layer 110, A cylindrical space 110a penetrating in the forward and backward directions is formed.

In addition, the second tube layer 120 has a structure in which a plurality of wire-shaped synthetic resin bodies 121, which are located outside the periphery of the first tube layer 110, are spirally rotated in a reverse direction while being separated from each other.

At this time, the respective wire-shaped synthetic resin bodies 111 constituting the first tube layer 110 are spaced apart from each other, and the second tube layer 110 formed outside the periphery of the first tube layer 110 The first tubular layer 110 and the second tubular synthetic resin body 121 constituting the first tubular layer 120 and the second tubular synthetic resin body 121 are also spaced apart from each other. The wire-shaped synthetic resin bodies 111 and 121 of the two-tube layer 120 have the same structure as the mesh 100a.

2 shows the structure of the tube 100 composed of two layers of the first tube layer 110 and the second tube layer 120. The tube 200 of FIG. The second tube layer 220 and the third tube layer 230 may be further formed around the first tube layer 210 and the second tube layer 220 and the second tube layer 220. That is, one or more n-th tube layers (n is a natural number of 3 or more) may be formed on the outer side of the second tube layer 120 in a spiral shape in the direction in which the mesh structure 100a is held. Type tube layers are formed in a forward helical shape like the first tube layer 110 in order to prevent damage to the net 100a structure between the first and second resin layers, Layer 120 may be formed in a reverse spiral shape. Here, 'forward' and 'reverse' are the terms used to distinguish the formation direction of the spiral. If the forward direction is clockwise, the reverse direction is counterclockwise. If the forward direction is counterclockwise, the reverse direction is clockwise.

The thus formed tube of the present invention has a structure in which a portion of the mesh structure 100a between the first tube layer 110 and the second tube layer 120, ..., the wire-like synthetic resin bodies constituting the n-th tube layers, It can be used as a filter medium for water purification or as an associate of aquaculture farm.

For example, when used as a filter medium for improving water quality in a water treatment plant, a farm, etc., a plurality of tubes 100 may be installed vertically in close proximity to each other as shown in FIG. 14, Foreign matter or harmful substances are attached to the surface of the wire-like synthetic resin body at the mesh structure portion formed in the tubes 100 when the wastewater flows through the tubes 100, thereby filtering the water for treatment. At this time, the total size (the inner diameter and outer diameter, length, number of tube layers, etc.) of the tube 100 and the size (sectional diameter, thickness, etc.) of the wire-like synthetic resin body may be set appropriately according to filtration efficiency.

15, the tubes 100 of the present invention may be manufactured in a small size (for example, a length of 5 to 7 cm, a cross-sectional inner diameter of 1.5 cm, an outer diameter of 2 cm) and put in a floating state in the filtration tank B . The tubes 100 injected into the filtration tank B float in the filtration tank B and adsorb foreign matter or pollutants in the wastewater through the mesh structure to be purified.

In addition, the tube 100 of the present invention can be used as a fishery for fishes (fishes) in a farm (fish farm). The tube 100 at this time is a size suitable for the formation and growth of fish For example, 1 to 5 m in length, 10 mm to 300 mm in outer diameter, 2 to 10 layers). Especially, it can be used as a fishery partner of a young fish such as a fryer, and it can be manufactured in various sizes depending on the fish species. FIG. 16 illustrates the installation structure when installed in a sea fish farm (or aquaculture farm). Four tubes 100 are weaved in the form of a well sperm. In each corner, the tube 100 stably sinks in the sea (M) having the same weight as the stone so as to be fixed. In the tube 100 as an aquedose put into the water, seaweeds and plankton including various seaweeds are inflowed and adhered to the surface of the tube 100, thereby providing an environment suitable for the hiding place of the fish while providing food for nutrient supply.

Next, in addition to the above-described configuration, the following various embodiments may be applied to the tube of the present invention.

6 to 12 are diagrams illustrating cross-sectional structures of a wire-like synthetic resin body constituting each of the tube layers of the present invention. FIG. 6 is a cross-sectional view of a wire-shaped synthetic resin body constituting a tube layer, FIG. 8 is a quadrangle having rounded sides. FIG. 9 is a cross-sectional view of a square formed with a through hole H in the longitudinal direction, , And FIG. 10 shows a star shape.

11 shows that the wire-shaped synthetic resin bodies of the first tube layer and the second tube layer are arranged in a bilaterally symmetrical direction, and FIG. 12 is a cross- Shaped, but the wire-shaped synthetic resin bodies of the first tube layer and the second tube layer are arranged vertically and symmetrically with respect to each other. In addition, the cross-sectional structure of the wire-like synthetic resin body constituting the tube of the present invention can be variously modified into an ellipse, a polygon having a pentagon or more, a polygon having rounded sides, a polygon having rounded sides, .

As described above, the wire-like synthetic resin body constituting the tube of the present invention may have various cross-sectional structures. If the polyolefin structure having rounded sides is formed as shown in Figs. 7 to 9, the surface area is increased, So that the filtration efficiency is improved when the tube of the present invention is used as a filter medium and the habitat environment can be more smoothly used even when it is used as an artillery. Particularly, when the through hole H is formed in the longitudinal direction as shown in Fig. 9, the effect is further improved. Also, in the case of a star-shaped cross-sectional structure as shown in Fig. 10, the surface area increases due to the unevenness, and the same effect can be obtained. In addition, even when the groove is formed in the shape of a letter 'U' or a letter 'U' having a recessed groove G as shown in FIGS. 11 and 12, foreign matter, microorganisms or seaweeds in the water are well adhered into the groove G, The filtration efficiency as a source or the habitat environment composition as an associate is improved. In particular, since the grooves (G) of the respective tube layers are symmetrical to each other, there is little restriction in the direction.

13 shows another embodiment of the wire-like synthetic resin body constituting the tube of the present invention, which is a wire-shaped synthetic resin body constituting the first tube layer, the second tube layer, ..., It is illustrated that the body can have a twisted structure with a prism shape. The structure of the pretzel type also increases the surface area and the curved surface, thereby improving the filtration efficiency as a filter medium or improving the original activity of forming a habitat as an associate.

On the other hand, a synthetic resin such as polyethylene, phenol resin, or epoxy resin can be applied to the wire-like synthetic resin body for producing the tube of the present invention. In particular, when used as a fishery site or the like, polyvinyl alcohol, polyethylene glycol, , Biodegradable polymer such as polyurethane, nylon and the like is preferably used. Biodegradable synthetic polymers are advantageous in environmental protection because decomposition products do not produce harmful substances in natural environments.

The wire-shaped synthetic resin body constituting the tube of the present invention may be produced by mixing any one or both of yellow loam and vegetable starch. Hwangto is advantageous for preventing red tide phenomenon because it adsorbs excessive plankton of the ocean, and when the red tide phenomenon occurs, when the tube of the present invention is put in, the red tide can be eliminated and it is also useful as an associate . In addition, the tube layer of a wire-like synthetic resin body containing various vegetable starches such as potato starch, sweet potato starch, or tapioca starch serves as a nutrient source for feeding fish in the course of decomposition with time. Therefore, the tube of the present invention in which the wire-like synthetic resin body is mixed with the loess and / or the vegetable starch can be utilized as an associate or utilized in the prevention of red tide. At this time, the mixing amount of the yellow loess and / or the vegetable starch may be variously adjusted as needed, for example, 15 to 20% by weight based on the total weight.

The wire-like synthetic resin body constituting the tube of the present invention may be produced by mixing any one or both of ceramics and activated carbon. Ceramic particles such as alumina and silica sand are useful for filtration absorption of liquid and powder, and activated carbon also functions as a filter. The tube of the present invention in which ceramics and / or activated carbon are mixed with the wire-type synthetic resin body can be used as a filter material. In this case, the mixing amount of the ceramic and / or activated carbon may be variously adjusted as needed. For example, 5% by weight.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, This is possible.

100, 200: tube 100a:
110, 210: first tube layer 110a: cylindrical space
111, 121: Wire type synthetic resin body 120, 220: Second tube layer
230: third tube layer B: filtration tank
G: Groove H: Through hole
M: Weights

Claims (4)

delete delete delete A plurality of wire-shaped synthetic resin bodies which are spaced apart from each other and are injection-molded in a forward spiral structure so as to form a cylindrical space therein; and a plurality of wire- And a second tube layer formed by injection-molding the synthetic resin body in a state of being spirally rotated in a reverse direction while being separated from each other,
Wherein a mesh structure is formed between the wire-like synthetic resin bodies constituting the first tube layer and the wire-shaped synthetic resin bodies constituting the second tube layer,
The wire-shaped synthetic resin body of the first tube layer and the second tube layer may be a polygon having a circular cross section, an ellipse section, a polygon, a polygon having sides formed with rounding, a polygon having a rounded side and a through- A star shape), a 'C' shape, or a 'U' shape,
When the cross-sectional structure of the wire-shaped synthetic resin body of the first tube layer and the second tube layer is 'C' shape, the wire-shaped synthetic resin bodies of the first tube layer and the second tube layer are arranged symmetrically to each other, When the cross-sectional structure of the wire-shaped synthetic resin body of the first tube layer and the second tube layer is 'U' shape, the wire-shaped synthetic resin bodies of the first tube layer and the second tube layer are arranged in a vertically symmetrical direction Tubing applicable as a filter medium or as a feature.

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