KR20200140969A - buoyant float body using wasted styrofoam - Google Patents

Abstract

The present invention relates to a recycled foam buoyancy body reusing discarded Styrofoam, which forms a recycled foam buoyancy body having the same performance, function, and use as those of original Styrofoam which is in a state before being discarded by completing several simple processes by collecting most waste Styrofoam lumps which are degenerated into waste. According to one embodiment of the present invention, a recycled foam is formed in a predetermined shape in a state that a waste Styrofoam lump is inserted thereinto by surrounding, by a polyurethane foam, the outer surface of a waste Styrofoam lump discarded after use for a predetermined purpose, or is formed in a predetermined shape by mixing waste Styrofoam grains obtained by pulverizing the waste Styrofoam lump discarded after use for a predetermined purpose with a polyurethane foam.

Description

Recycled foamed buoyant body using wasted styrofoam {buoyant float body using wasted styrofoam}

The present invention relates to a recycled foamed buoyant body that reuses the discarded styrofoam, and more particularly, the original state before disposal after some processing by collecting most of the waste styrofoam lumps that have fallen into garbage. It relates to a recycled foamed buoyancy body that reuses the discarded styrofoam to form a recycled foamed buoyancy body that has the same performance, function and use as the Styrofoam product of

Most of the buoys of various fishing gear floating on the surface of the waters such as marine seas or lakes on land have been mostly styrofoam lumps in a predetermined shape, and are also used in floating solar power generation facilities that are increasingly in demand. Most of the buoyancy bodies used are also those made of styrofoam.

However, such buoys of styrofoam mass become weaker and weaker due to impacts such as strong ultraviolet rays on the sea level and salt in seawater or friction or bumps between facilities, and thus partly fall off or break. Due to these, the service life as a buoy is very short, so it must be disposed of immediately after a little use. For this reason, it is made of discarded styrofoam lumps, fragments, or grains on the sea level or on the shore of the shore. Styrofoam wastes are overflowing, becoming one of the main causes of serious pollution of the natural environment.

Recently, the surface of a styrofoam mass is covered with a tarpaulin made of vinyl or tarpaulin, or coated with various resins such as polyurea, or a protective film made of various plastics is covered. Various methods have been attempted to protect the inner styrofoam lump so that it can be used for a little longer, but most of these are also on the surface of a new styrofoam lump made at the factory. Lungs that have already been discarded and turned into trash are merely a means of forming a protective film to extend the service life, or to reduce the amount of styrofoam lumps that are broken and floated on the surface of the ocean or on the shore of a lake. It is completely irrelevant to the reuse of styrofoam lumps. Most preferably, the styrofoam lumps that have fallen into trash are collected and processed a little before being disposed of. The recycling has the same performance, function and purpose as the original styrofoam product. It would be best to return to the product.

Until now, the discarded styrofoam is collected and crushed granular semi-finished products are reused as a filler for insulation purposes in a predetermined part between the gaps of various buildings, or by applying heat of a predetermined temperature to make compressed ingots and then ingots again. Some have been recycled by means of recycling products such as moldings for building materials by melting and extrusion molding, but the places and uses where the granular semi-finished products are reused as fillers for insulation purposes, and The quantity is very limited. It is very insignificant in terms of the overall aspect of waste styrofoam. Also, the overall process is very complicated and the ingot is melted to make an ingot, and the ingot is melted again to extrude a predetermined product. The resulting cost is also very expensive, which is much more expensive than making a new product from scratch using synthetic resin raw materials. Eventually, the meaning of recycling has become colorless, and in recent years it has been almost stopped.

As a background technology of the present invention, there is Patent Registration No. 1665245 "A device for manufacturing an accessory using waste styrofoam and a method for manufacturing an accessory using the same" (Patent Document 1). In the background art,'the auxiliary molding space (F) is formed inside, and the upper mold 100 and the lower mold 110 are hingedly coupled to each other by vertically engaging each other; A spout molding frame 120 inserted into and fixed to the lower surface of the upper mold and the upper surface of the lower mold; A plurality of micro-holes 121 formed in the auxiliary molding frame so that steam can be introduced into the auxiliary molding space; A pair of opening and closing cylinders 200 configured to lift the front of the upper mold 100 with one end hinged to the front of both sides of the upper mold 100 and the other end hinged to the lower mold 110 respectively ; A locking means 210 coupled to the front surfaces of the upper mold 100 and the lower mold 110; A styrofoam supply device 300 installed above the upper mold 100 to supply styrofoam with pneumatic pressure to the auxiliary molding space F through the inside of the upper mold 100; A steam supply device 400 connected to a cavity C formed in the upper mold 100 and the lower mold 110 to supply steam; A cooling water pump 420 for supplying cooling water to the cavity C through a supply line L of the steam supply device 100; A drain 500 coupled to the lower portion of the cavity C to discharge steam and condensed water; An open/close valve 600 coupled to the supply line L of the steam supply device 400 and the cooling water pump 420 and the drain 500, respectively; A hydraulic supply device 700 for driving the opening and closing cylinder 200 and the locking means 210; A pneumatic supply device 800 for driving the styrofoam supply device 300 and the on/off valve 600; The hydraulic supply device 700 and the pneumatic supply device 800; A pressure gauge 913 that measures the pressure in the auxiliary molding space; An air vent 530 installed on the upper mold 100 and the lower mold 110 so that cooling water is smoothly injected or discharged; And a control unit 900 for controlling the operation of the opening/closing valve 600; including, putting waste styrofoam on the styrofoam bead injected into the auxiliary molding space (F), and pressing the button, the upper mold is closed and locked, and the locking means The closing detection sensor installed on one side of the unit recognizes this and pressurizes the styrofoam and performs steam molding by the control unit, and when the pressure in the auxiliary molding space (F) measured by the pressure gauge coupled to the upper mold is higher than the reference value, steam We propose a'bugu manufacturing apparatus using waste styrofoam, characterized in that it is determined that the forming is completed and cooling and separation of the buoy is automatically performed.

However, the background technology is also a predetermined product such as molding for building materials by collecting the discarded styrofoam and melting the semi-finished products in a granular state by applying heat at a predetermined temperature to make a compressed ingot, and then melting the ingot again to extrusion molding. Recycling some of them by means of recycling, etc., has a problem that not only the manufacturing process is very complicated but also the cost is very expensive while utilizing waste resources.

Patent Registration No. 1665245 "A device for manufacturing a buggy using waste styrofoam and a method for manufacturing a buggy using the same"

The present invention is to solve the above problems, the same performance as the original styrofoam product in a state before being discarded through a little simple process by collecting most of the waste styrofoam lumps that have fallen into garbage, and It is intended to make a recycled foamed buoyant body for functions and uses, and the exterior of waste styrofoam lumps using polyurethane resin that can be easily foamed directly in the field rather than in a factory with a predetermined complex facility. The surface is covered with a polyurethane resin foam, and at the same time, it induces foaming into a desired shape, or a polyurethane resin foam is mixed with the particles of the waste styrofoam. It induces foaming into a desired shape, and ultimately, waste styrofoam is contained inside or mixed with waste styrofoam grains, and waste styrofoam is recycled. The purpose of this is to provide a recycled foamed buoyancy body that reuses discarded styrofoam made of polyurethane (polyurethane) resin foam.

In the present invention, the outer surface of the discarded waste Styrofoam mass is wrapped in a predetermined shape after being used for a predetermined purpose, so that the waste Styrofoam mass is in a predetermined shape, or a predetermined purpose. A recycled foam buoyant for reusing the discarded styrofoam, characterized in that it consists of a recycled foam having a predetermined shape by mixing together the waste styrofoam particles and polyurethane foams that are pulverized after being used as a waste styrofoam mass. I want to provide.

In addition, in a casting mold of a predetermined shape that can seal the inside of a predetermined volume of empty space, at least one predetermined portion is an opening and closing portion that can be opened and closed freely, and the remaining portion is divided into a fixed portion. In addition to being provided, a casting mold release film of a predetermined material is provided on the inner surface of the casting mold so that the casting mold can be easily removed. After being used for a predetermined purpose together with a liquid polyurethane foaming liquid in the empty space inside the casting mold, one or more waste styrofoam lumps or waste styrofoam particles from which the waste styrofoam lumps are crushed are inserted and opened. In the inside of the closed casting mold by closing the opening and closing part of the opened casting mold again, the polyurethane foaming solution wraps the outer surface of the waste Styrofoam mass or mixes it with the waste Styrofoam grains. At the same time, it foams into a predetermined shape that matches the shape of the inside of the closed casting mold, and after curing, reopen the opening and closing part of the casting mold and open the casting mold and the casting mold. It is intended to provide a recycled foamed buoyancy body that reuses discarded styrofoam, characterized in that it consists of a recycled foam provided by separating the foam inside.

In addition, the casting mold release film is made of a predetermined material containing paper or paper, or a thin film made of thin vinyl or various resins. Attaching to the inner surface of a casting mold, or attaching an adhesive tape coated with an adhesive of a predetermined material on one side to the inner surface of a casting mold, or wax of a predetermined material on the inner surface of a casting mold It is intended to provide a recycled foamed buoyancy body that reuses discarded styrofoam, characterized in that it is provided either by applying (wax) or by dissolving rosin or by applying mineral oil or vegetable oil of a predetermined material. .

In addition, in a predetermined part of the casting mold, the polyurethane foaming liquid expands while foaming, so that the air inside the sealed casting mold can escape. It is intended to provide a recycled foamed buoyancy body that reuses the discarded styrofoam characterized in that it is provided.

In addition, a resin product of a predetermined material or a paint of a predetermined material is applied or coated on the outer surface of the recycled foam, or a covering material of a predetermined material is covered. It is intended to provide a recycled foamed buoyancy body that reuses discarded styrofoam, characterized in that an outer covering protective film is formed.

In addition, the outer cover protective film 30 is to provide a recycled foamed buoyancy body that reuses the discarded styrofoam, characterized in that it is formed by coating or applying a polyurea resin.

In addition, one side of the fixing member having a predetermined length and thickness as a predetermined material is attached to the surface of a predetermined portion inside the casting mold, and the other side of the other side protrudes in the inner direction of the casting mold. The waste Styrofoam mass is supported by the fixing member so as to be fixed without being separated from a predetermined position in the empty space inside the casting mold. do.

The recycled foamed buoyant body that reuses the discarded styrofoam of the present invention collects most of the waste styrofoam lumps that have fallen into garbage and undergoes a little simple process to perform the same performance as the original styrofoam product in the state before being discarded. And it is intended to make a recycled foamed buoyancy body for functions and uses. In particular, it is very reasonable at a much lower cost than in the case of melting waste styrofoam to make an ingot and then melting the ingot again to extrude a predetermined product. As a result, there is a very useful effect of allowing the waste styrofoam to be recycled.

The following drawings attached to the present specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings. It is limited and should not be interpreted.
1 is a perspective view of a recycled foamed buoyant body for reusing the discarded styrofoam of the present invention. It is a perspective view showing a state in which a lump of waste styrofoam is inserted into the foam, and FIG. 1B is a perspective view showing a state in which two lumps of waste styrofoam are formed in FIG. 1A, and FIG. 1c is a perspective view showing the recycled foam of the present invention in a state in which the waste styrofoam granules of crushed styrofoam and the polyurethane foam are mixed together.
FIG. 2 is a perspective view showing a part of the outer covering protective film in a state in which a separate outer covering protective film is provided on the outer surface of the recycled foam of the present invention as shown in FIG. 1.
FIG. 3 is a cross-sectional view showing one side cross-sectional view of the state of FIG. 2 provided with an outer cover protective layer in each state as shown in FIG. 1.
4 is a perspective view of a state in which a casting mold having a predetermined shape capable of sealing the inside, which is an empty space of a predetermined volume, is provided for the practice of the present invention.
FIG. 5 is a perspective view showing a state in which an opening and closing portion capable of opening and closing a predetermined portion of at least one side of the casting mold of FIG. 4 is provided.
6 is a liquid polyurethane foaming liquid and a waste styrofoam mass added to the empty space inside the casting mold in a state where the opening and closing part on one side of the casting mold of FIG. 5 is opened and opened. It is a perspective view showing a part of the casting mold cut away in the state, and FIG. 7 is a cross-sectional view showing a side section of each case that becomes a step in the state as in FIG. 6 in each case as in FIG. As a diagram, FIG. 7A is a block of waste Styrofoam, FIG. 7B is a block of waste Styrofoam, and FIG. 7C is a polyurethane foaming solution in which waste Styrofoam particles are placed in an empty space inside the casting mold. These are cross-sectional views showing the state of being put together with.
Figure 8 is the opening and closing part on one side of the casting mold opened in the states of FIGS. 6 and 7 again, and the polyurethane foaming solution is foamed and cured. It is a perspective view showing a state in which the recycled foam of the present invention and the casting mold are separated from the open state.

In the following, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the disclosed embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention will be described in detail according to a preferred embodiment.

1 is a perspective view of a recycled foamed buoyant body for reusing the discarded styrofoam of the present invention, as shown in Figs. 1a and 1b, the outer surface of the waste styrofoam masses 11 of one or two or more lumps is a polyurethane foam ( As a result, the recycled foam 10 of the present invention is in a state in which at least one waste styrofoam mass 11 is contained in the inside of the recycled foam 10 of the present invention. In addition, as shown in Fig. 1c, the waste styrofoam particles 111 and the polyurethane foam 12 obtained by crushing the discarded styrofoam may be mixed together to become the recycled foam 10 of the present invention. .

In addition, in order to further enhance the durability and strength of the recycled foam 10 of the present invention as described above and further extend the service life, an outer covering protective film 30 is further provided on the outer surface as in each case of FIGS. 2 and 3. It is provided to protect the internal recycled foam 10, which not only prevents water or moisture from penetrating into the recycled foam 10, but also prevents the recycled foam 10 from rapidly deteriorating by ultraviolet rays of sunlight on the water surface. In order to prevent the rapid progress of salt corrosion due to salt in seawater or in the ocean, a resin product of a predetermined material or a paint of a predetermined material is applied to the outer surface of the recycled foam 10 or coated. ), or by covering the outer surface of the recycled foam 10 with various covering materials such as a thermosetting resin such as plastic of a predetermined material, or a metal material in the shape of a thin sheet or a net.

In particular, buoyancy bodies used in floating photovoltaic facilities, which have been widely spread in recent years, absolutely need to maintain a lifespan of about 20 years or more once installed, and it is virtually impossible to replace the buoyancy bodies during the lifespan. Even if it is replaced, it is desirable to have a more robust outer cover protective film 30 because it is a structure that requires a very high cost of replacement. It is also highly resistant to UV rays from sunlight on the surface of the water and corrosion due to salt in seawater. It is more preferable to have a material that is made of a material of an appropriate price while having a sufficient predetermined strength to withstand physical external impacts well, while at the same time having excellent salt corrosion resistance, etc. Polyurea, which has excellent strength, impact resistance, abrasion resistance, durability, waterproofness, and water repellency, as well as heat resistance against ultraviolet rays and salt corrosion resistance against salt, is provided by coating on the outer surface of the recycled foam 10. You can do it.

Polyurea described above is a kind of urea resin and is widely used for various purposes such as coating waterproofing or coating on concrete surfaces such as swimming pools or rooftops of buildings. It is applied directly or sprayed onto the target base surface. It becomes possible by methods of coating by spraying.

4 is a perspective view of a casting mold 20 that is provided to control foaming as a desired predetermined shape of the recycled foam 10 of the present invention, and the purpose of the recycled foam 10 of the present invention It has a structure that can seal the front of an empty space having a predetermined volume of the same shape as that of FIG. 5, but as shown in FIG. It is divided into a fixed part 22 and provided.

6 shows a waste styrofoam mass 11 and a liquid polyurethane foaming liquid 121 inside the opening and closing part 21 on one side of the casting mold 20 to be opened. It is a perspective view of a state put together, and FIG. 7 is a cross-sectional view showing a cross-sectional view of one side of each case, which becomes a step in the state of FIG. 6 in each case as shown in FIG. Figure 7a shows a piece of waste styrofoam 11 and FIG. 7b shows two pieces of waste styrofoam 11 together with a polyurethane foaming liquid 121 made of a liquid in an empty space inside. 7c is a cross-sectional view showing a state in which the waste styrofoam particles 111 are injected.

In order to facilitate separation of the recycled foam 10 and the casting mold 20 of the present invention formed by foaming the polyurethane foaming liquid 121 above, the inside of the casting mold 20 The surface of the material can be provided with a casting mold 20 and a release film 24 of a predetermined material in advance. In particular, the polyurethane foam 12 has adhesion to various surfaces or objects that come into contact with it. Because this is very excellent, the inner surface of the casting mold 20 made of a predetermined material and the surface of the recycled foam 10 of the present invention by the foaming of polyurethane are attached to each other and are not bonded to each other, but are peeled off. In particular, when the inner surface of the casting mold 20 and the recycled foam 10 by the foaming of polyurethane are attached to each other and are combined, the casting mold 20 can be removed later. At this time, it is provided to prevent in advance the things that cause considerable difficulties due to causes such as torn or fall off the surface of the recycled foam 10, and various types of paper or paper components Glue of a predetermined material or a thin film made of thin vinyl or various resin materials to the inner surface of the casting mold 20 or an adhesive of a predetermined material on one side Apply the applied adhesive tape to the inner surface of the casting mold 20, or apply a wax of a predetermined material to the inner surface of the casting mold 20, or melt the rosin. Or, it is provided as a method of applying a mineral oil or vegetable oil of a predetermined material.

In the above, the casting mold 20 is a means for controlling the recyclable foam 10 of the present invention to be foamed into a desired predetermined shape, and recycled foam such as a hexahedron shape, a cylinder shape, a spherical shape, etc. (10) It can be made in a variety of different shapes that have the same shape as the desired shape of (10). Also, the material of the casting mold 20 is made of a steel plate or gypsum, or various resins, such as It is possible to provide a variety of known materials such as a mold made of resin, tree trunk, etc. However, in the process of foaming the polyurethane foaming liquid 121, the casting mold 20 and polyurethane Foaming liquid 121 is provided with a predetermined material that does not cause harmful defects such as deformation or breakage of the casting mold 20 due to chemical reactions between the foaming liquids 121.

As described above, in a state in which the casting mold 20 and the release film 24 are provided together, the opening and closing part 21 on one side of the casting mold 20 is opened and opened as shown in FIGS. 6 and 7. In the empty space inside the casting mold (20), one or more pieces of waste styrofoam (11) or waste styrofoam particles (111) together with a liquid polyurethane foam (121) are inserted and then opened and opened. The polyurethane foaming liquid 121 inside the casting mold 20 is closed by closing the opening and closing part 21 again to close all sides of the casting mold 20 in a state to seal the empty space inside. ) To cover the outer surfaces of one or more waste Styrofoam masses (11) collectively, or mix with the waste Styrofoam grains (111) and foam in the same shape as the shape of the empty space inside the casting mold (20) After doing, let it harden.

When the polyurethane foaming liquid 121 expands while foaming in the empty space inside the sealed mold 20 above, the air in the empty space inside the casting mold 20 is naturally easy. In order to be able to escape from the outside, it may be provided with one or more exhaust ports 25 formed of holes of a predetermined size in a predetermined portion of the casting mold 20.

In addition, in the process of foaming the polyurethane foaming liquid 121, one or more waste styrofoam masses 11, which are in the empty space inside the sealed mold 20, are pushed by the foam to be biased to one side. In this case, the waste styrofoam mass 11 which is slightly pushed outwardly biased to one side by the outer covering protective film 30 provided as shown in Figs. 2 and 3 is also protected, which causes a very big problem. Although it is not, but it is more preferable that the waste styrofoam mass 11 is as close as possible to the central part of the recycled foam 10 of the present invention, and for this purpose, the waste styrofoam mass 11 is placed at a predetermined position in the center of the recycled foam 10 of the present invention. In addition, a separate fixing member 23 may be further provided so as to be firmly fixed. As shown in FIG. 7B, the fixing member 23 is made of a predetermined material and has a predetermined length and thickness. Casting mold (20) is attached to the surface of a predetermined part inside, and the other side of the opposite side protrudes in the direction of the inside of the casting mold (20), so that a predetermined part of the waste styrofoam mass (11) is the fixing member. It is firmly supported by (23) so that the waste styrofoam mass 11 can be firmly fixed without being pushed out of a predetermined position by being pushed against the foam in the process of foaming the polyurethane foaming liquid 121. do.

In addition, the fixing member 23 is easily separated when separating the recycled foam 10 and the casting mold 20 of the present invention later in the state in which the waste styrofoam mass 11 is fixed. Similarly, it is also possible to cover or apply the release agent film 24 in advance to the outer surface of the fixing member 23.

The polyurethane foam (foam) 12 formed by the foaming of the polyurethane foam 121 is made of poly (POLYOL) and isocyanate (ISOCYANATE) as the foaming subjects, in addition to a foaming agent and a catalyst. It is a foam product obtained by mixing a stabilizer, or a flame retardant if necessary, and is mainly used as a high-performance insulation material or as a water-repellent agent for water leakage in crack gaps in crack repair of concrete. Depending on how hard the foam) is, it can be divided into super soft and soft, semi-hard and hard, and it has the advantage of being able to easily foam by properly mixing the foaming agent, the foaming agent, and the catalyst directly at the site.

Among the above mixed materials, the basic one is divided into a foaming agent made of poly (POLYOL) and isocyanate (ISOCYANATE) and a foaming agent that serves to foam the foaming subject.

In addition, in the above, a chemical foaming and foaming agent that foams while forming bubbles according to the pores of the CO2 gas generated by the reaction by mixing water and isocyanate contained in the foaming subject into contact with water using the foaming agent as water. There are two methods of physical foaming in which pores are formed by bubbles of the gas generated from the Freon gas or HCFC-141b by using R-11 as a freon gas or HCFC-141b as an alternative material for the freon gas.

In addition, in addition to the above foaming agent and foaming agent, a catalyst and a stabilizer are also mixed together, and the catalyst at this time plays a role of promoting foaming, and the stabilizer serves to make the size and structure of pores formed by foaming constant. do.

Polyurethane foaming agents as described above are in a state in which water is leaked by injecting the first liquid, which is premixed with all of the foaming agent excluding the foaming agent, and a catalyst or stabilizer, etc., into a leak area between concrete cracks, etc. Foaming by allowing water to act as a foaming agent, or adding water separately to the above first solution to foam, or a predetermined amount including the first solution and a foaming agent in which the foaming agent and predetermined other materials are mixed together in advance. After dividing the other materials into the second solution, which was mixed together in advance, the first solution and the second solution are mixed together and mixed at the site so that foaming occurs.

The recycled foam 10 or waste Styrofoam granules of the present invention cured by foaming the polyurethane foaming liquid 121 as a state in which one or more waste styrofoam masses 11 are contained in the inside through the above processes. A state in which the recycled foam 10 of the present invention, which has been cured by foaming the polyurethane foaming liquid 121 while being mixed with 111), is inside the inside of the sealed casting mold 20 As shown in FIG. 8, by reopening the opening and closing part 21 of one or more sides of the casting mold 20, the recycling foam 10 and the casting mold 20 of the present invention are separated and recycled according to the present invention. The foam 10 is to be made.

The recycled foamed buoyant body that reuses the discarded styrofoam of the present invention as described above is the original styrofoam product in the state before being discarded through a little simple process by collecting most of the waste styrofoam turned into garbage It is intended to make a recycled foamed buoyancy body that has the same performance, function and use as described above.In particular, it costs much less than that of melting waste styrofoam to make an ingot and remelting the ingot to perform extrusion molding into a predetermined product. It has a very useful effect of recycling waste styrofoam very reasonably.

Until now, the present invention has been described in detail with reference to the presented embodiments, but those of ordinary skill in the art can make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by such modifications and modifications, but is limited by the claims appended below.

10: recycled foam
11: Waste styrofoam mass
111: waste styrofoam grains
12: polyurethane foam
121: polyurethane foaming liquid
20: casting mold
21: opening and closing part
22: fixed part
23: fixing member
24: release film
25: exhaust port
30: outer covering protective film

Claims (7)

Polyurethane foam 12 is wrapped around the outer surface of the discarded waste styrofoam mass 11 after being used for a predetermined purpose, so that the waste styrofoam mass 11 is in a predetermined shape. Or recycled foam (10) in which the waste styrofoam granules 111 and the polyurethane foam 12 are mixed together to form a predetermined shape after crushing the discarded waste styrofoam mass 11 after being used for a predetermined purpose. ) Recycled foamed buoyancy for reusing the discarded styrofoam, characterized in that consisting of. The method according to claim 1,
In the casting mold 20 of a predetermined shape that can seal the inside, which is a predetermined volume of empty space, at least one predetermined portion is opened and closed as an opening and closing portion 21 that can be opened and closed freely, and the remaining portion is In addition to being provided by being divided by the top 22, the casting mold 20 is formed on the inner surface of the casting mold 20 so that the casting mold 20 can be easily removed. 20) A release film 24 is provided to open the opening/closing part 21 on one or more sides to open it in the empty space inside the casting mold 20, together with the polyurethane foaming liquid 121 made of a liquid. After being used for the purpose, one or more waste styrofoam masses (11) or waste styrofoam masses (11) that have been crushed are inserted and opened to open the casting mold (20). The polyurethane foaming liquid 121 is wrapped around the outer surface of the waste styrofoam 11 or the waste styrofoam granules inside the inside of the closed casting mold 20 by closing the opening and closing part 21 again. The opening and closing part 21 of the casting mold 20 is reopened after foaming and curing in a predetermined shape that matches the shape of the inside of the sealed mold 20 while being mixed with the 111). Discarded, characterized in that it consists of a recycled foam (10) provided by opening and opening to separate the foam (12) inside the casting mold (20) and the mold (20) Recyclable foam buoyancy that reuses styrofoam. The method according to claim 2,
The casting mold 20, the release film 24, is made of a predetermined material containing paper or paper, or made of thin vinyl or various resins. Attaching thin films to the inner surface of the casting mold 20, or attaching an adhesive tape coated with an adhesive of a predetermined material on one side to the inner surface of the casting mold 20, or casting It is characterized in that it is provided with any one of coatings by applying wax of a predetermined material to the inner surface of the mold) 20, by dissolving rosin, or by coating mineral oil or vegetable oil of a predetermined material. Recycled foam buoyancy that reuses discarded styrofoam. The method according to claim 2,
A predetermined size to allow the air inside the sealed casting mold 20 to escape as the polyurethane foaming liquid 121 expands while foaming at a predetermined part of the casting mold 20 Recycling foam buoyancy body for reusing the discarded styrofoam, characterized in that at least one exhaust port 25 is provided as a hole of. The method according to claim 1,
A resin product of a predetermined material or a paint of a predetermined material is applied or coated on the outer surface of the recycled foam 10, or a coating material of a predetermined material is covered. Recycling foam buoyancy body for reusing the discarded styrofoam, characterized in that the outer covering protective film 30 is formed. The method of claim 5,
The outer covering protective film 30 is a recycled foamed buoyancy body for reuse of discarded styrofoam, characterized in that it is formed by coating or applying a polyurea resin. The method according to claim 2,
One side of the fixing member 23 made of a predetermined material and having a predetermined length and thickness is attached to the surface of a predetermined portion inside the casting mold 20, and the other side of the opposite side is a casting mold 20 The waste styrofoam mass (11) is supported by the fixing member (23) so that it is fixed without being separated from a predetermined position in the empty space inside the casting mold (20). Recyclable foamed buoyancy body that reuses discarded styrofoam characterized by.

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